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Top 150 Mechanical Engineering Research Topics [Updated]
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Mechanical engineering is an intriguing discipline that holds significant sway in shaping our world. With a focus on crafting inventive machinery and fostering sustainable energy initiatives, mechanical engineers stand as pioneers in driving technological progress. However, to make meaningful contributions to the field, researchers must carefully choose their topics of study. In this blog, we’ll delve into various mechanical engineering research topics, ranging from fundamental principles to emerging trends and interdisciplinary applications.
How to Select Mechanical Engineering Research Topics?
Table of Contents
Selecting the right mechanical engineering research topics is crucial for driving impactful innovation and addressing pressing challenges. Here’s a step-by-step guide to help you choose the best research topics:
- Identify Your Interests: Start by considering your passions and areas of expertise within mechanical engineering. What topics excite you the most? Choosing a subject that aligns with your interests will keep you motivated throughout the research process.
- Assess Current Trends: Stay updated on the latest developments and trends in mechanical engineering. Look for emerging technologies, pressing industry challenges, and areas with significant research gaps. These trends can guide you towards relevant and timely research topics.
- Conduct Literature Review: Dive into existing literature and research papers within your field of interest. Identify gaps in knowledge, unanswered questions, or areas that warrant further investigation. Building upon existing research can lead to more impactful contributions to the field.
- Consider Practical Applications: Evaluate the practical implications of potential research topics. How will your research address real-world problems or benefit society? Choosing topics with tangible applications can increase the relevance and impact of your research outcomes.
- Consult with Advisors and Peers: Seek guidance from experienced mentors, advisors, or peers in the field of mechanical engineering. Discuss your research interests and potential topics with them to gain valuable insights and feedback. Their expertise can help you refine your ideas and select the most promising topics.
- Define Research Objectives: Clearly define the objectives and scope of your research. What specific questions do you aim to answer or problems do you intend to solve? Establishing clear research goals will guide your topic selection process and keep your project focused.
- Consider Resources and Constraints: Take into account the resources, expertise, and time available for your research. Choose topics that are feasible within your constraints and align with your available resources. Balancing ambition with practicality is essential for successful research endeavors.
- Brainstorm and Narrow Down Options: Generate a list of potential research topics through brainstorming and exploration. Narrow down your options based on criteria such as relevance, feasibility, and alignment with your interests and goals. Choose the most promising topics that offer ample opportunities for exploration and discovery.
- Seek Feedback and Refinement: Once you’ve identified potential research topics, seek feedback from colleagues, advisors, or experts in the field. Refine your ideas based on their input and suggestions. Iteratively refining your topic selection process will lead to a more robust and well-defined research proposal.
- Stay Flexible and Open-Minded: Remain open to new ideas and opportunities as you progress through the research process. Be willing to adjust your research topic or direction based on new insights, challenges, or discoveries. Flexibility and adaptability are key qualities for successful research endeavors in mechanical engineering.
By following these steps and considering various factors, you can effectively select mechanical engineering research topics that align with your interests, goals, and the needs of the field.
Top 50 Mechanical Engineering Research Topics For Beginners
- Analysis of the efficiency of different heat exchanger designs.
- Optimization of airfoil shapes for enhanced aerodynamic performance.
- Investigation of renewable energy harvesting using piezoelectric materials.
- Development of smart materials for adaptive structures in aerospace applications.
- Study of vibration damping techniques for improving vehicle ride comfort.
- Design and optimization of suspension systems for off-road vehicles.
- Analysis of fluid flow characteristics in microchannels for cooling electronics.
- Evaluation of the performance of different brake systems in automotive vehicles.
- Development of lightweight materials for automotive and aerospace industries.
- Investigation of the effects of friction stir welding parameters on joint properties.
- Design and testing of a small-scale wind turbine for rural electrification.
- Study of the dynamics of flexible multibody systems in robotics.
- Development of a low-cost prosthetic limb using 3D printing technology.
- Analysis of heat transfer in electronic packaging for thermal management.
- Investigation of energy harvesting from vehicle suspension systems.
- Design and optimization of heat sinks for electronic cooling applications.
- Study of material degradation in composite structures under various loading conditions.
- Development of bio-inspired robotic mechanisms for locomotion.
- Investigation of the performance of regenerative braking systems in electric vehicles.
- Design and analysis of an autonomous agricultural robot for crop monitoring.
- Optimization of gas turbine blade profiles for improved efficiency.
- Study of the aerodynamics of animal-inspired flying robots (bio-drones).
- Development of advanced control algorithms for robotic manipulators.
- Analysis of wear mechanisms in mechanical components under different operating conditions.
- Investigation of the efficiency of solar water heating systems.
- Design and optimization of microfluidic devices for biomedical applications.
- Study of the effects of additive manufacturing parameters on part quality.
- Development of assistive devices for individuals with disabilities.
- Analysis of the performance of different types of bearings in rotating machinery.
- Investigation of the feasibility of using shape memory alloys in actuator systems.
- Design and optimization of a compact heat exchanger for space applications.
- Study of the effects of surface roughness on friction and wear in sliding contacts.
- Development of energy-efficient HVAC systems for buildings.
- Analysis of the performance of different types of fuel cells for power generation.
- Investigation of the feasibility of using biofuels in internal combustion engines.
- Design and testing of a micro-scale combustion engine for portable power generation.
- Study of the mechanics of soft materials for biomedical applications.
- Development of exoskeletons for rehabilitation and assistance in mobility.
- Analysis of the effects of vehicle aerodynamics on fuel consumption.
- Investigation of the potential of ocean wave energy harvesting technologies.
- Design and optimization of energy-efficient refrigeration systems.
- Study of the dynamics of flexible structures subjected to dynamic loads.
- Development of sensors and actuators for structural health monitoring.
- Analysis of the performance of different cooling techniques in electronics.
- Investigation of the potential of hydrogen fuel cells for automotive applications.
- Design and testing of a small-scale hydroelectric power generator.
- Study of the mechanics of cellular materials for impact absorption.
- Development of unmanned aerial vehicles (drones) for environmental monitoring.
- Analysis of the efficiency of different propulsion systems in space exploration.
- Investigation of the potential of micro-scale energy harvesting technologies for powering wireless sensors.
Top 50 Mechanical Engineering Research Topics For Intermediate
- Optimization of heat exchanger designs for enhanced energy efficiency.
- Investigating the effects of surface roughness on fluid flow in microchannels.
- Development of lightweight materials for automotive applications.
- Modeling and simulation of combustion processes in internal combustion engines.
- Design and analysis of novel wind turbine blade configurations.
- Study of advanced control strategies for unmanned aerial vehicles (UAVs).
- Analysis of wear and friction in mechanical components under varying operating conditions.
- Investigation of thermal management techniques for high-power electronic devices.
- Development of smart materials for shape memory alloys in actuator applications.
- Design and fabrication of microelectromechanical systems (MEMS) for biomedical applications.
- Optimization of additive manufacturing processes for metal 3D printing.
- Study of fluid-structure interaction in flexible marine structures.
- Analysis of fatigue behavior in composite materials for aerospace applications.
- Development of energy harvesting technologies for sustainable power generation.
- Investigation of bio-inspired robotics for locomotion in challenging environments.
- Study of human factors in the design of ergonomic workstations.
- Design and control of soft robots for delicate manipulation tasks.
- Development of advanced sensor technologies for condition monitoring in rotating machinery.
- Analysis of aerodynamic performance in hypersonic flight vehicles.
- Study of regenerative braking systems for electric vehicles.
- Optimization of cooling systems for high-performance computing (HPC) applications.
- Investigation of fluid dynamics in microfluidic devices for lab-on-a-chip applications.
- Design and optimization of passive and active vibration control systems.
- Analysis of heat transfer mechanisms in nanofluids for thermal management.
- Development of energy-efficient HVAC (heating, ventilation, and air conditioning) systems.
- Study of biomimetic design principles for robotic grippers and manipulators.
- Investigation of hydrodynamic performance in marine propeller designs.
- Development of autonomous agricultural robots for precision farming.
- Analysis of wind-induced vibrations in tall buildings and bridges.
- Optimization of material properties for additive manufacturing of aerospace components.
- Study of renewable energy integration in smart grid systems.
- Investigation of fracture mechanics in brittle materials for structural integrity assessment.
- Development of wearable sensors for human motion tracking and biomechanical analysis.
- Analysis of combustion instability in gas turbine engines.
- Optimization of thermal insulation materials for building energy efficiency.
- Study of fluid-structure interaction in flexible wing designs for unmanned aerial vehicles.
- Investigation of heat transfer enhancement techniques in heat exchanger surfaces.
- Development of microscale actuators for micro-robotic systems.
- Analysis of energy storage technologies for grid-scale applications.
- Optimization of manufacturing processes for lightweight automotive structures.
- Study of tribological behavior in lubricated mechanical systems.
- Investigation of fault detection and diagnosis techniques for industrial machinery.
- Development of biodegradable materials for sustainable packaging applications.
- Analysis of heat transfer in porous media for thermal energy storage.
- Optimization of control strategies for robotic manipulation tasks in uncertain environments.
- Study of fluid dynamics in fuel cell systems for renewable energy conversion.
- Investigation of fatigue crack propagation in metallic alloys.
- Development of energy-efficient propulsion systems for unmanned underwater vehicles (UUVs).
- Analysis of airflow patterns in natural ventilation systems for buildings.
- Optimization of material selection for additive manufacturing of biomedical implants.
Top 50 Mechanical Engineering Research Topics For Advanced
- Development of advanced materials for high-temperature applications
- Optimization of heat exchanger design using computational fluid dynamics (CFD)
- Control strategies for enhancing the performance of micro-scale heat transfer devices
- Multi-physics modeling and simulation of thermoelastic damping in MEMS/NEMS devices
- Design and analysis of next-generation turbofan engines for aircraft propulsion
- Investigation of advanced cooling techniques for electronic devices in harsh environments
- Development of novel nanomaterials for efficient energy conversion and storage
- Optimization of piezoelectric energy harvesting systems for powering wireless sensor networks
- Investigation of microscale heat transfer phenomena in advanced cooling technologies
- Design and optimization of advanced composite materials for aerospace applications
- Development of bio-inspired materials for impact-resistant structures
- Exploration of advanced manufacturing techniques for producing complex geometries in aerospace components
- Integration of artificial intelligence algorithms for predictive maintenance in rotating machinery
- Design and optimization of advanced robotics systems for industrial automation
- Investigation of friction and wear behavior in advanced lubricants for high-speed applications
- Development of smart materials for adaptive structures and morphing aircraft wings
- Exploration of advanced control strategies for active vibration damping in mechanical systems
- Design and analysis of advanced wind turbine blade designs for improved energy capture
- Investigation of thermal management solutions for electric vehicle batteries
- Development of advanced sensors for real-time monitoring of structural health in civil infrastructure
- Optimization of additive manufacturing processes for producing high-performance metallic components
- Investigation of advanced corrosion-resistant coatings for marine applications
- Design and analysis of advanced hydraulic systems for heavy-duty machinery
- Exploration of advanced filtration technologies for water purification and wastewater treatment
- Development of advanced prosthetic limbs with biomimetic functionalities
- Investigation of microscale fluid flow phenomena in lab-on-a-chip devices for medical diagnostics
- Optimization of heat transfer in microscale heat exchangers for cooling electronics
- Development of advanced energy-efficient HVAC systems for buildings
- Exploration of advanced propulsion systems for space exploration missions
- Investigation of advanced control algorithms for autonomous vehicles in complex environments
- Development of advanced surgical robots for minimally invasive procedures
- Optimization of advanced suspension systems for improving vehicle ride comfort and handling
- Investigation of advanced materials for 3D printing in aerospace manufacturing
- Development of advanced thermal barrier coatings for gas turbine engines
- Exploration of advanced wear-resistant coatings for cutting tools in machining applications
- Investigation of advanced nanofluids for enhanced heat transfer in cooling applications
- Development of advanced biomaterials for tissue engineering and regenerative medicine
- Exploration of advanced actuators for soft robotics applications
- Investigation of advanced energy storage systems for grid-scale applications
- Development of advanced rehabilitation devices for individuals with mobility impairments
- Exploration of advanced materials for earthquake-resistant building structures
- Investigation of advanced aerodynamic concepts for reducing drag and improving fuel efficiency in vehicles
- Development of advanced microelectromechanical systems (MEMS) for biomedical applications
- Exploration of advanced control strategies for unmanned aerial vehicles (UAVs)
- Investigation of advanced materials for lightweight armor systems
- Development of advanced prosthetic interfaces for improving user comfort and functionality
- Exploration of advanced algorithms for autonomous navigation of underwater vehicles
- Investigation of advanced sensors for detecting and monitoring air pollution
- Development of advanced energy harvesting systems for powering wireless sensor networks
- Exploration of advanced concepts for next-generation space propulsion systems.
Mechanical engineering research encompasses a wide range of topics, from fundamental principles to cutting-edge technologies and interdisciplinary applications. By choosing the right mechanical engineering research topics and addressing key challenges, researchers can contribute to advancements in various industries and address pressing global issues. As we look to the future, the possibilities for innovation and discovery in mechanical engineering are endless, offering exciting opportunities to shape a better world for generations to come.
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The Best Mechanical Engineering Dissertation Topics and Titles
Published by Carmen Troy at January 5th, 2023 , Revised On May 17, 2024
Introduction
Engineering is a vast subject that encompasses different branches for a student to choose from. Mechanical engineering is one of these branches , and one thing that trips students in the practical field is dissertation . Writing a mechanical engineering dissertation from scratch is a difficult task due to the complexities involved, but the job is still not impossible.
To write an excellent dissertation, you first need a stellar research topic. Are you looking to select the best mechanical engineering dissertation topic for your dissertation? To help you get started with brainstorming for mechanical engineering dissertation topics, we have developed a list of the latest topics that can be used for writing your mechanical engineering dissertation.
These topics have been developed by PhD-qualified writers on our team, so you can trust them to use these topics for drafting your own dissertation.
You may also want to start your dissertation by requesting a brief research proposal from our writers on any of these topics, which includes an introduction to the topic, research question, aim and objectives, literature review, and the proposed methodology of research to be conducted. Let us know if you need any help in getting started.
Check our dissertation example to get an idea of how to structure your dissertation .
Review the step-by-step guide on how to write your own dissertation here.
Latest Mechanical Engineering Research Topics
Topic 1: an investigation into the applications of iot in autonomous and connected vehicles.
Research Aim: The research aims to investigate the applications of IoT in autonomous and connected vehicles
Objectives:
- To analyse the applications of IoT in mechanical engineering
- To evaluate the communication technologies in autonomous and connected vehicles.
- To investigate how IoT facilitates the interaction of smart devices in autonomous and connected vehicles
Topic 2: Evaluation of the impact of combustion of alternative liquid fuels on the internal combustion engines of automobiles
Research Aim: The research aims to evaluate the impact of the combustion of alternative liquid fuels on the internal combustion engines of automobiles
- To analyse the types of alternative liquid fuels for vehicles and their implications
- To investigate the benchmarking of alternative liquid fuels based on the principles of combustion performance.
- To evaluate the impact of combustion of alternative liquid fuels on the internal combustion engines of automobiles with conventional engines
Topic 3: An evaluation of the design and control effectiveness of production engineering on rapid prototyping and intelligent manufacturing
Research Aim: The research aims to evaluate the design and control effectiveness of production engineering on rapid prototyping and intelligent manufacturing
- To analyse the principles of design and control effectiveness of production engineering.
- To determine the principles of rapid prototyping and intelligent manufacturing for ensuring quality and performance effectiveness
- To evaluate the impact of production engineering on the design and control effectiveness of rapid prototyping and intelligent manufacturing.
Topic 4: Investigating the impact of industrial quality control on the quality, reliability and maintenance in industrial manufacturing
Research Aim: The research aims to investigate the impact of industrial quality control on the quality, reliability and maintenance in industrial manufacturing
- To analyse the concept and international standards associated with industrial quality control.
- To determine the strategies for maintaining quality, reliability and maintenance in manufacturing.
- To investigate the impact of industrial quality control on the quality, reliability and maintenance in industrial manufacturing.
Topic 5: Analysis of the impact of AI on intelligent control and precision of mechanical manufacturing
Research Aim: The research aims to analyse the impact of AI on intelligent control and precision of mechanical manufacturing
- To analyse the applications of AI in mechanical manufacturing
- To evaluate the methods of intelligent control and precision of the manufacturing
- To investigate the impact of AI on intelligent control and precision of mechanical manufacturing for ensuring quality and reliability
COVID-19 Mechanical Engineering Research Topics
Investigate the impacts of coronavirus on mechanical engineering and mechanical engineers..
Research Aim: This research will focus on identifying the impacts of Coronavirus on mechanical engineering and mechanical engineers, along with its possible solutions.
Research to study the contribution of mechanical engineers to combat a COVID-19 pandemic
Research Aim: This study will identify the contributions of mechanical engineers to combat the COVID-19 pandemic highlighting the challenges faced by them and their outcomes. How far did their contributions help combat the Coronavirus pandemic?
Research to know about the transformation of industries after the pandemic.
Research Aim: The study aims to investigate the transformation of industries after the pandemic. The study will answer questions such as, how manufacturing industries will transform after COVID-19. Discuss the advantages and disadvantages.
Damage caused by Coronavirus to supply chain of manufacturing industries
Research Aim: The focus of the study will be on identifying the damage caused to the supply chain of manufacturing industries due to the COVID-19 pandemic. What measures are taken to recover the loss and to ensure the continuity of business?
Research to identify the contribution of mechanical engineers in running the business through remote working.
Research Aim: This study will identify whether remote working is an effective way to recover the loss caused by the COVID-19 pandemic? What are its advantages and disadvantages? What steps should be taken to overcome the challenges faced by remote workers?
Dissertation Topics in Mechanical Engineering Design and Systems Optimization
Topic 1: mini powdered metal design and fabrication for mini development of waste aluminium cannes and fabrication.
Research Aim: The research will focus on producing and manufacturing copula furnaces and aluminium atomisers with available materials to manufacture aluminium powder metal.0.4 kg of refined coke will be chosen to measure content and energy balance and calculate the design values used to produce the drawings.
Topic 2: Interaction between the Fluid, Acoustic, and vibrations
Research Aim: This research aims to focus on the interaction between the Fluid, Acoustic, and vibrations
Topic 3: Combustion and Energy Systems.
Research Aim: This research aims to identify the relationship between Combustion and Energy Systems
Topic 4: Study on the Design and Manufacturing
Research Aim: This research will focus on the importance of design and manufacturing
Topic 5: Revolution in the Design Engineering
Research Aim: This research aims to highlight the advances in design engineering
Topic 6: Optimising HVAC Systems for Energy Efficiency
Research Aim: The study investigates different design configurations and operational strategies to optimise heating, ventilation, and air conditioning (HVAC) systems for energy efficiency while maintaining indoor comfort levels.
Topic 7: Impact of Building Design Parameters on Indoor Thermal Comfort
Research Aim: The research explores the impact of building design parameters, such as insulation, glazing, shading, and ventilation, on indoor thermal comfort and energy consumption.
Topic 8: An Empirical Analysis of Enhanced Security and Privacy Measures for Call Taxi Metres
Research Aim: The research explores the methods to enhance the security and privacy of call taxi meter systems. It explores encryption techniques for sensitive data transmission and authentication protocols for driver and passenger verification.
Topic 9: An Investigation of Optimising Manifold Design
Research Aim: The study investigates various designs for manifolds used in HBr/HCl charging systems. It focuses on factors such as material compatibility, pressure control, flow rates, and safety protocols.
Topic 10: Implementation of a Plant Lean Transformation
Research Aim: The research examines the implementation process and outcomes of a Lean Transformation in a plant environment. It focuses on identifying the key factors contributing to successful adoption and sustained improvement in operational efficiency.
Topic 11: Exploring Finite Element Analysis (FEA) of Torque Limiters
Research Aim: Exploring the use of FEA techniques to simulate the behaviour of torque limiters under various loading conditions. The research provides insights into stress distribution and deformation.
Dissertation Topics in Mechanical Engineering Innovations and Materials Analysis
Topic 1: an overview of the different research trends in the field of mechanical engineering..
Research Aim: This research aims to analyse the main topics of mechanical engineering explored by other researchers in the last decade and the research methods. The data used is accumulated from 2009 to 2019. The data used for this research is used from the “Applied Mechanics Review” magazine.
Topic 2: The Engineering Applications of Mechanical Metamaterials.
Research Aim: This research aims to analyse the different properties of various mechanical metamaterials and how they can be used in mechanical engineering. This research will also discuss the potential uses of these materials in other industries and future developments in this field.
Topic 3: The Mechanical Behaviour of Materials.
Research Aim: This research will look into the properties of selected materials for the formation of a product. The study will take the results of tests that have already been carried out on the materials. The materials will be categorised into two classes from the already prepared results, namely destructive and non-destructive. The further uses of the non-destructive materials will be discussed briefly.
Topic 4: Evaluating and Assessment of the Flammable and Mechanical Properties of Magnesium Oxide as a Material for SLS Process.
Research Aim: The research will evaluate the different properties of magnesium oxide (MgO) and its potential use as a raw material for the SLS (Selective Laser Sintering) process. The flammability and other mechanical properties will be analysed.
Topic 5: Analysing the Mechanical Characteristics of 3-D Printed Composites.
Research Aim: This research will study the various materials used in 3-D printing and their composition. This research will discuss the properties of different printing materials and compare the harms and benefits of using each material.
Topic 6: Evaluation of a Master Cylinder and Its Use.
Research Aim: This research will take an in-depth analysis of a master cylinder. The material used to create the cylinder, along with its properties, will be discussed. The use of the master cylinder in mechanical engineering will also be explained.
Topic 7: Manufacturing Pearlitic Rail Steel After Re-Modelling Its Mechanical Properties.
Research Aim: This research will look into the use of modified Pearlitic rail steel in railway transportation. Modifications of tensile strength, the supported weight, and impact toughness will be analysed. Results of previously applied tests will be used.
How Can ResearchProspect Help?
ResearchProspect writers can send several custom topic ideas to your email address. Once you have chosen a topic that suits your needs and interests, you can order for our dissertation outline service , which will include a brief introduction to the topic, research questions , literature review , methodology , expected results , and conclusion . The dissertation outline will enable you to review the quality of our work before placing the order for our full dissertation writing service !
Electro-Mechanical Dissertation Topics
Topic 8: studying the electro-mechanical properties of multi-functional glass fibre/epoxy reinforced composites..
Research Aim: This research will study the properties of epoxy-reinforced glass fibres and their use in modern times. Features such as tensile strength and tensile resistance will be analysed using Topic 13: Studying the Mechanical and Durability different current strengths. Results from previous tests will be used to explain their properties.
Topic 9: Comparing The Elastic Modules of Different Materials at Different Strain Rates and Temperatures.
Research Aim: This research will compare and contrast a selected group of materials and look into their elastic modules. The modules used are the results taken from previously carried out experiments. This will explain why a particular material is used for a specific purpose.
Topic 10: Analysing The Change in The Porosity and Mechanical Properties of Concrete When Mixed With Coconut Sawdust.
Research Aim: This research will analyse the properties of concrete that are altered when mixed with coconut sawdust. Porosity and other mechanical properties will be evaluated using the results of previous experiments. The use of this type of concrete in the construction industry will also be discussed.
Topic 11: Evaluation of The Thermal Resistance of Select Materials in Mechanical Contact at Sub-Ambient Temperatures.
Research Aim: In this research, a close evaluation of the difference in thermal resistance of certain materials when they come in contact with a surface at sub-ambient temperature. The properties of the materials at the temperature will be noted. Results from previously carried out experiments will be used. The use of these materials will be discussed and explained, as well.
Topic 12: Analysing The Mechanical Properties of a Composite Sandwich by Using The Bending Test.
Research Aim: In this research, we will analyse the mechanical properties of the components of a composite sandwich through the use of the bending test. The results of the tests previously carried out will be used. The research will take an in-depth evaluation of the mechanical properties of the sandwich and explain the means that it is used in modern industries.
Mechanical Properties Dissertation Topics
Topic 13: studying the mechanical and durability properties of magnesium silicate hydrate binders in concrete..
Research Aim: In this research, we will evaluate the difference in durability and mechanical properties between regular concrete binders and magnesium silicate hydrate binders. The difference between the properties of both binders will indicate which binder is better for concrete. Features such as tensile strength and weight it can support are compared.
Topic 14: The Use of Submersible Pumping Systems.
Research Aim: This research will aim to analyse the use of a submersible pumping system in machine systems. The materials used to make the system, as well as the mechanical properties it possesses, will be discussed.
Topic 15: The Function of a Breather Device for Internal Combustion Engines.
Research Aim: In this research, the primary function of a breather device for an internal combustion engine is discussed. The placement of this device in the system, along with its importance, is explained. The effects on the internal combustion engine if the breather device is removed will also be observed.
Topic 16: To Study The Compression and Tension Behaviour of Hollow Polyester Monofilaments.
Research Aim: This research will focus on the study of selected mechanical properties of hollow polyester monofilaments. In this case, the compression and tension behaviour of the filaments is studied. These properties are considered in order to explore the future use of these filaments in the textile industry and other related industries.
Topic 17: Evaluating the Mechanical Properties of Carbon-Nanotube-Reinforced Cementous Materials.
Research Aim: This research will focus on selecting the proper carbon nanotube type, which will be able to improve the mechanical properties of cementitious materials. Changes in the length, diameter, and weight-based concentration of the nanotubes will be noted when analysing the difference in the mechanical properties. One character of the nanotubes will be of optimal value while the other two will be altered. Results of previous experiments will be used.
Topic 18: To Evaluate the Process of Parallel Compression in LNG Plants Using a Positive Displacement Compressor
Research Aim: This research aims to evaluate a system and method in which the capacity and efficiency of the process of liquefaction of natural gas can avoid bottlenecking in its refrigerant compressing system. The Advantages of the parallel compression system in the oil and gas industry will be discussed.
Topic 19: Applying Particulate Palm Kernel Shell Reinforced Epoxy Composites for Automobiles.
Research Aim: In this research, the differences made in applying palm kernel shell particulate to reinforced epoxy composites for the manufacturing of automobile parts will be examined. Properties such as impact toughness, wear resistance, flexural, tensile, and water resistance will be analysed carefully. The results of the previous tests will be used. The potential use of this material will also be discussed.
Topic 20: Changes Observed in The Mechanical Properties of Kevlar KM2-600 Due to Abrasions.
Research Aim: This research will focus on observing the changes in the mechanical properties of Kevlar KM2-600 in comparison to two different types of S glass tows (AGY S2 and Owens Corning Shield Strand S). Surface damage, along with fibre breakage, will be noted in all three fibres. The effects of the abrasions on all three fibres will be emphasised. The use of Kevlar KM2 and the other S glass tows will also be discussed, along with other potential applications.
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Industrial Application of Mechanical Engineering Dissertation Topics
Topic 1: the function of a fuel injector device..
Research Aim: This research focuses on the function of a fuel injector device and why this component is necessary for the system of an internal combustion engine. The importance of this device will be explained. The adverse effects on the entire system if the equipment is either faulty or completely removed will also be discussed.
Topic 2: To Solve Optimization Problems in a Mechanical Design by The Principles of Uncertainty.
Research Aim: This research will aim to formulate an optimization in a mechanical design under the influence of uncertainty. This will create an efficient tool that is based on the conditions of each optimisation under the risk. This will save time and allow the designer to obtain new information in regard to the stability of the performance of his design under uncertainties.
Topic 3: Analysing The Applications of Recycled Polycarbonate Particle Materials and Their Mechanical Properties.
Research Aim: This research will evaluate the mechanical properties of different polycarbonate materials and their potential to be recycled. The materials that can be recycled are then further examined for potential use as 3-dimensional printing materials. The temperature of the printer’s nozzle, along with the nozzle velocity matrix from previous experiments, is used to evaluate the tensile strength of the printed material. Other potential uses of these materials are also discussed.
Topic 4: The Process of Locating a Lightning Strike on a Wind Turbine.
Research Aim: This research will provide a detailed explanation of the process of detecting a lightning strike on a wind turbine. The measurement of the magnitude of the lightning strike, along with recognising the affected area will be explained. The proper method employed to rectify the damage that occurred by the strike will also be discussed.
Topic 5: Importance of a Heat Recovery Component in an Internal Combustion Engine for an Exhaust Gas System.
Research Aim: The research will take an in-depth evaluation of the different mechanics of a heat recovery component in an exhaust gas system. The functions of the different parts of the heat recovery component will be explained along with the importance of the entire element itself. The adverse effect of a faulty defective heat recovery component will also be explained.
“Feel free to contact us if you require custom dissertation topics and titles for your dissertation. ResearchProspect Ltd is a UK registered academic writing company which can provide you with highly qualified writers to assist you in the process of the formation of your dissertation. For more information about the type of services we offer.“
Related: Civil Engineering Dissertation
Important Notes:
As a student of mechanical engineering looking to get good grades, it is essential to develop new ideas and experiment on existing mechanical engineering theories – i.e., to add value and interest to the topic of your research.
The field of mechanical engineering is vast and interrelated to so many other academic disciplines like civil engineering , construction , law , and even healthcare . That is why it is imperative to create a mechanical engineering dissertation topic that is particular, sound and actually solves a practical problem that may be rampant in the field.
We can’t stress how important it is to develop a logical research topic; it is the basis of your entire research. There are several significant downfalls to getting your topic wrong: your supervisor may not be interested in working on it, the topic has no academic creditability, the research may not make logical sense, and there is a possibility that the study is not viable.
This impacts your time and efforts in writing your dissertation as you may end up in a cycle of rejection at the very initial stage of the dissertation. That is why we recommend reviewing existing research to develop a topic, taking advice from your supervisor, and even asking for help in this particular stage of your dissertation.
Keeping our advice in mind while developing a research topic will allow you to pick one of the best mechanical engineering dissertation topics that not only fulfill your requirement of writing a research paper but also add to the body of knowledge.
Therefore, it is recommended that when finalizing your dissertation topic, you read recently published literature in order to identify gaps in the research that you may help fill.
Remember- dissertation topics need to be unique, solve an identified problem, be logical, and can also be practically implemented. Take a look at some of our sample mechanical engineering dissertation topics to get an idea for your own dissertation.
How to Structure Your Mechanical Engineering Dissertation
A well-structured dissertation can help students to achieve a high overall academic grade.
- A Title Page
- Acknowledgments
- Declaration
- Abstract: A summary of the research completed
- Table of Contents
- Introduction : This chapter includes the project rationale, research background, key research aims and objectives, and the research problems to be addressed. An outline of the structure of a dissertation can also be added to this chapter.
- Literature Review : This chapter presents relevant theories and frameworks by analysing published and unpublished literature available on the chosen research topic in light of research questions to be addressed. The purpose is to highlight and discuss the relative weaknesses and strengths of the selected research area whilst identifying any research gaps. Break down of the topic and key terms can have a positive impact on your dissertation and your tutor.
- Methodology: The data collection and analysis methods and techniques employed by the researcher are presented in the Methodology chapter, which usually includes research design, research philosophy, research limitations, code of conduct, ethical consideration, data collection methods, and data analysis strategy .
- Findings and Analysis: The findings of the research are analysed in detail under the Findings and Analysis chapter. All key findings/results are outlined in this chapter without interpreting the data or drawing any conclusions. It can be useful to include graphs , charts, and tables in this chapter to identify meaningful trends and relationships.
- Discussion and Conclusion: The researcher presents his interpretation of results in this chapter and states whether the research hypothesis has been verified or not. An essential aspect of this section of the paper is to draw a linkage between the results and evidence from the literature. Recommendations with regard to the implications of the findings and directions for the future may also be provided. Finally, a summary of the overall research, along with final judgments, opinions, and comments, must be included in the form of suggestions for improvement.
- References: This should be completed in accordance with your University’s requirements
- Bibliography
- Appendices: Any additional information, diagrams, graphs that were used to complete the dissertation but not part of the dissertation should be included in the Appendices chapter. Essentially, the purpose is to expand the information/data.
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How to find dissertation topics about mechanical engineering.
To discover mechanical engineering dissertation topics:
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- Consider sustainability or automation.
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- Opt for a niche aligning with your passion and career aims.
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Top 50 Emerging Research Topics in Mechanical Engineering
Explore the forefront of innovation in mechanical engineering
Mechanical engineering is a constantly evolving field that shapes our world, from the micro-scale of nanotechnology to the macro-scale of heavy machinery. With technological advancements and societal demands driving innovation, numerous emerging research topics are gaining traction in the domain of mechanical engineering. These areas encompass a wide array of disciplines, promising groundbreaking developments and solutions to complex challenges. Here, iLovePhD presents you a list of the top 50 emerging research topics in the field of Mechanical Engineering.
Explore the forefront of innovation in mechanical engineering with our curated list of the Top 50 Emerging Research Topics. From 3D printing to AI-driven robotics, delve into the latest trends shaping the future of this dynamic field
1. Additive Manufacturing and 3D Printing
Multi-Material 3D Printing: Explore techniques for printing with multiple materials in a single process to create complex, multi-functional parts.
In-Situ Monitoring and Control: Develop methods for real-time monitoring and control of the printing process to ensure quality and accuracy.
Bio-printing : Investigate the potential of 3D printing in the field of tissue engineering and regenerative medicine.
Sustainable Materials for Printing : Research new eco-friendly materials and recycling methods for additive manufacturing.
2. Advanced Materials and Nanotechnology
Nanostructured Materials: Study the properties and applications of materials at the nanoscale level for enhanced mechanical, thermal, and electrical properties.
Self-Healing Materials: Explore materials that can repair damage autonomously, extending the lifespan of components.
Graphene-based Technologies: Investigate the potential of graphene in mechanical engineering, including its use in composites, sensors, and energy storage.
Smart Materials: Research materials that can adapt their properties in response to environmental stimuli, such as shape memory alloys.
3. Robotics and Automation
Soft Robotics: Explore the development of robots using soft and flexible materials, enabling safer human-robot interactions and versatile applications.
Collaborative Robots (Cobots ): Investigate the integration of robots that can work alongside humans in various industries, enhancing productivity and safety.
Autonomous Systems: Research algorithms and systems for autonomous navigation and decision-making in robotic applications.
Robot Learning and Adaptability: Explore machine learning and AI techniques to enable robots to learn and adapt to dynamic environments.
4. Energy Systems and Sustainability
Renewable Energy Integration: Study the integration of renewable energy sources into mechanical systems, focusing on efficiency and reliability.
Energy Storage Solutions: Investigate advanced energy storage technologies, such as batteries, supercapacitors, and fuel cells for various applications.
Waste Heat Recovery: Research methods to efficiently capture and utilize waste heat from industrial processes for energy generation.
Sustainable Design and Manufacturing: Explore methodologies for sustainable product design and manufacturing processes to minimize environmental impact.
5. Biomechanics and Bioengineering
Prosthetics and Orthotics: Develop advanced prosthetic devices that mimic natural movement and enhance the quality of life for users.
Biomimicry: Study natural systems to inspire engineering solutions for various applications, such as materials, structures, and robotics.
Tissue Engineering and Regenerative Medicine: Explore methods for creating functional tissues and organs using engineering principles.
Biomechanics of Human Movement: Research the mechanics and dynamics of human movement to optimize sports performance or prevent injuries.
6. Computational Mechanics and Simulation
Multi-scale Modelling: Develop models that span multiple length and time scales to simulate complex mechanical behaviors accurately.
High-Performance Computing in Mechanics: Explore the use of supercomputing and parallel processing for large-scale simulations.
Virtual Prototyping: Develop and validate virtual prototypes to reduce physical testing in product development.
Machine Learning in Simulation: Explore the use of machine learning algorithms to optimize simulations and model complex behaviors.
7. Aerospace Engineering and Aerodynamics
Advanced Aircraft Design: Investigate novel designs that enhance fuel efficiency, reduce emissions, and improve performance.
Hypersonic Flight and Space Travel: Research technologies for hypersonic and space travel, focusing on propulsion and thermal management.
Aerodynamics and Flow Control: Study methods to control airflow for improved efficiency and reduced drag in various applications.
Unmanned Aerial Vehicles (UAVs): Explore applications and technologies for unmanned aerial vehicles, including surveillance, delivery, and agriculture.
8. Autonomous Vehicles and Transportation
Vehicular Automation: Develop systems for autonomous vehicles, focusing on safety, decision-making, and infrastructure integration.
Electric and Hybrid Vehicles: Investigate advanced technologies for electric and hybrid vehicles, including energy management and charging infrastructure.
Smart Traffic Management: Research systems and algorithms for optimizing traffic flow and reducing congestion in urban areas.
Vehicle-to-Everything (V2X) Communication: Explore communication systems for vehicles to interact with each other and with the surrounding infrastructure for enhanced safety and efficiency.
9. Structural Health Monitoring and Maintenance
Sensor Technologies: Develop advanced sensors for real-time monitoring of structural health in buildings, bridges, and infrastructure.
Predictive Maintenance: Implement predictive algorithms to anticipate and prevent failures in mechanical systems before they occur.
Wireless Monitoring Systems: Research wireless and remote monitoring systems for structural health, enabling continuous surveillance.
Robotic Inspection and Repair: Investigate robotic systems for inspection and maintenance of hard-to-reach or hazardous structures.
10. Manufacturing Processes and Industry 4.0
Digital Twin Technology: Develop and implement digital twins for real-time monitoring and optimization of manufacturing processes.
Internet of Things (IoT) in Manufacturing: Explore IoT applications in manufacturing for process optimization and quality control.
Smart Factories: Research the development of interconnected, intelligent factories that optimize production and resource usage.
Cybersecurity in Manufacturing: Investigate robust Cybersecurity measures for safeguarding interconnected manufacturing systems from potential threats.
Top 50 Emerging Research Ideas in Mechanical Engineering
- Additive Manufacturing and 3D Printing: Exploring novel materials, processes, and applications for 3D printing in manufacturing, aerospace, healthcare, etc.
- Advanced Composite Materials: Developing lightweight, durable, and high-strength composite materials for various engineering applications.
- Biomechanics and Bioengineering: Research focusing on understanding human movement, tissue engineering, and biomedical devices.
- Renewable Energy Systems: Innovations in wind, solar, and hydrokinetic energy, including optimization of energy generation and storage.
- Smart Materials and Structures: Research on materials that can adapt their properties in response to environmental stimuli.
- Robotics and Automation: Enhancing automation in manufacturing, including collaborative robots, AI-driven systems, and human-robot interaction.
- Energy Harvesting and Conversion: Extracting energy from various sources and converting it efficiently for practical use.
- Micro- and Nano-mechanics: Studying mechanical behavior at the micro and nanoscale for miniaturized devices and systems.
- Cyber-Physical Systems: Integration of computational algorithms and physical processes to create intelligent systems.
- Industry 4.0 and Internet of Things (IoT): Utilizing IoT and data analytics in manufacturing for predictive maintenance, quality control, and process optimization.
- Thermal Management Systems: Developing efficient cooling and heating technologies for electronic devices and power systems.
- Sustainable Manufacturing and Design: Focus on reducing environmental impact and improving efficiency in manufacturing processes.
- Artificial Intelligence in Mechanical Systems: Applying AI for design optimization, predictive maintenance, and decision-making in mechanical systems.
- Adaptive Control Systems: Systems that can autonomously adapt to changing conditions for improved performance.
- Friction Stir Welding and Processing: Advancements in solid-state joining processes for various materials.
- Hybrid and Electric Vehicles: Research on improving efficiency, battery technology, and infrastructure for electric vehicles.
- Aeroelasticity and Flight Dynamics: Understanding the interaction between aerodynamics and structural dynamics for aerospace applications.
- MEMS/NEMS (Micro/Nano-Electro-Mechanical Systems): Developing tiny mechanical devices and sensors for various applications.
- Soft Robotics and Bio-inspired Machines: Creating robots and machines with more flexible and adaptive structures.
- Wearable Technology and Smart Fabrics: Integration of mechanical systems in wearable devices and textiles for various purposes.
- Human-Machine Interface: Designing intuitive interfaces for better interaction between humans and machines.
- Precision Engineering and Metrology: Advancements in accurate measurement and manufacturing techniques.
- Multifunctional Materials: Materials designed to serve multiple purposes or functions in various applications.
- Ergonomics and Human Factors in Design: Creating products and systems considering human comfort, safety, and usability.
- Cybersecurity in Mechanical Systems: Protecting interconnected mechanical systems from cyber threats.
- Supply Chain Optimization in Manufacturing: Applying engineering principles to streamline and improve supply chain logistics.
- Drones and Unmanned Aerial Vehicles (UAVs): Research on their design, propulsion, autonomy, and applications in various industries.
- Resilient and Sustainable Infrastructure: Developing infrastructure that can withstand natural disasters and environmental changes.
- Space Exploration Technologies: Advancements in propulsion, materials, and systems for space missions.
- Hydrogen Economy and Fuel Cells: Research into hydrogen-based energy systems and fuel cell technology.
- Tribology and Surface Engineering: Study of friction, wear, and lubrication for various mechanical systems.
- Digital Twin Technology: Creating virtual models of physical systems for analysis and optimization.
- Electric Propulsion Systems for Satellites: Improving efficiency and performance of electric propulsion for space applications.
- Humanitarian Engineering: Using engineering to address societal challenges in resource-constrained areas.
- Optimization and Design of Exoskeletons: Creating better wearable robotic devices to assist human movement.
- Nanotechnology in Mechanical Engineering: Utilizing nanomaterials and devices for mechanical applications.
- Microfluidics and Lab-on-a-Chip Devices: Developing small-scale fluid-handling devices for various purposes.
- Clean Water Technologies: Engineering solutions for clean water production, treatment, and distribution.
- Circular Economy and Sustainable Design: Designing products and systems for a circular economic model.
- Biologically Inspired Design: Drawing inspiration from nature to design more efficient and sustainable systems.
- Energy-Efficient HVAC Systems: Innovations in heating, ventilation, and air conditioning for energy savings.
- Advanced Heat Exchangers: Developing more efficient heat transfer systems for various applications.
- Acoustic Metamaterials and Noise Control: Designing materials and systems to control and manipulate sound.
- Smart Grid Technology: Integrating advanced technologies into power grids for efficiency and reliability.
- Renewable Energy Integration in Mechanical Systems: Optimizing the integration of renewable energy sources into various mechanical systems.
- Smart Cities and Infrastructure: Applying mechanical engineering principles to design and develop sustainable urban systems.
- Biomimetic Engineering: Mimicking biological systems to develop innovative engineering solutions.
- Machine Learning for Materials Discovery: Using machine learning to discover new materials with desired properties.
- Health Monitoring Systems for Structures: Developing systems for real-time monitoring of structural health and integrity.
- Virtual Reality (VR) and Augmented Reality (AR) in Mechanical Design: Utilizing VR and AR technologies for design, simulation, and maintenance of mechanical systems.
Mechanical engineering is a vast and dynamic field with ongoing technological advancements, and the above list represents a glimpse of the diverse research areas that drive innovation. Researchers and engineers in this field continue to push boundaries, solving complex problems and shaping the future of technology and society through their pioneering work. The evolution and interdisciplinary nature of mechanical engineering ensure that new and exciting research topics will continue to emerge, providing solutions to challenges and opportunities yet to be discovered.
- Biomechanics
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- engineering
- EnvironmentalImpact
- FiniteElement
- FluidMechanics
- HeatExchangers
- HumanMachine
- HydrogenFuel
- MachineLearning
- Mechatronics
- Microfluidics
- nanomaterials
- Nanotechnology
- NoiseControl
- SolarThermal
- StructuralHealth
- sustainability
- Sustainable
- SustainableEnergy
- Transportation
480 UGC CARE List of Journals – Science – 2024
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Study on mechanical properties of nano-tic- and nano-sio 2 -modified basalt fiber concrete.
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1. Introduction
2. materials and methods, 2.1. materials, 2.2. model optimization theory and design methods, 2.2.1. theoretical calculation of rsm, 2.2.2. theoretical calculation of the thirst function, 2.2.3. preparation of concrete, 3. results and discussion, 3.1. analysis of nsf concrete slump results, 3.2. the concrete damage realization, 3.3. analysis of mechanical properties of concrete, 3.3.1. concrete prediction model, 3.3.2. rsm model test, 3.3.3. model diagnostic diagrams, 3.3.4. compressive strength of nsf concrete, 3.3.5. splitting tensile strength of nsf concrete, 3.3.6. flexural strength of nsf concrete, 3.4. modulus of elasticity analysis of nsf concrete, 3.5. optimization of modified concrete design and analysis of results, 3.6. analysis of concrete microstructure, 4. conclusions, author contributions, data availability statement, conflicts of interest.
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Click here to enlarge figure
Type of Cement | Stability | Times/min | Compressive Strength/MPa | Flexural Strength/MPa | |||
---|---|---|---|---|---|---|---|
Condensation | Congeal | 3d | 28d | 3d | 28d | ||
P.O 42.5 | eligible | 280 | 335 | 24.2 | 46.3 | 5.0 | 6.7 |
Sand Type | Fineness Modulus | Apparent Density/kg·m | Grain Size/mm | Packing Density/kg·m | Moisture Content/% | Mud Content% |
---|---|---|---|---|---|---|
Mesopotamia | 2.4 | 2594 | ≤3 | 1606 | 3.2 | 1.5 |
Coarse Aggregate | Crushing Indicators/% | Apparent Density/kg·m | Grain Size/mm | Bulk Density /kg·m | Mud Content/% |
---|---|---|---|---|---|
crushed stone | 5.4 | 2771 | 10~31 | 1360 | 0.7 |
Lengths/mm | Monofilament Diameter/μm | Densities/g·cm | Modulus of Elasticity/GPa | Tensile Strength/MPa | Elongation at Break/% |
---|---|---|---|---|---|
12 | 13 | 2.63~2.65 | 91~110 | 3000~4800 | 2.4~3.0 |
Brochure | Unit | Typology | Level | ||
---|---|---|---|---|---|
−1 | 0 | 1 | |||
A: NT | % | factor | 0 | 1.25 | 2.5 |
B: BF | % | factor | 0 | 0.15 | 0.3 |
C: NS | % | factor | 0 | 2.5 | 5 |
R : Compressive strength | MPa | response value | |||
R : Splitting tensile strength | MPa | response value | |||
R : Flexural strength | MPa | response value |
Experimental Group | A | B | C | Degree of Slump | R | R | R | Modulus of Elasticity |
---|---|---|---|---|---|---|---|---|
% | % | % | mm | MPa | MPa | MPa | GPa | |
NSF0 | 0 | 0 | 0 | 126 | 41.2 | 3.8 | 7.24 | 32.5 |
NSF1 | 0 | 0.15 | 0 | 102 | 44.6 | 4.3 | 7.74 | 35.6 |
NSF2 | 2.5 | 0.15 | 0 | 82 | 37.2 | 3.6 | 6.94 | 30.7 |
NSF3 | 1.25 | 0.3 | 0 | 63 | 33.8 | 3.4 | 6.63 | 28.3 |
NSF4 | 1.25 | 0 | 0 | 112 | 45.1 | 4 | 7.56 | 36.8 |
NSF5 | 0 | 0 | 2.5 | 105 | 46.7 | 4.2 | 7.82 | 37.2 |
NSF6 | 2.5 | 0.3 | 2.5 | 51 | 31.3 | 3.4 | 6.35 | 27.1 |
NSF7 | 0 | 0.3 | 2.5 | 63 | 33.3 | 3.5 | 6.43 | 28.4 |
NSF8 | 1.25 | 0.15 | 2.5 | 67 | 50.3 | 4.8 | 8.79 | 39.2 |
NSF9 | 1.25 | 0.15 | 2.5 | 72 | 52.3 | 4.6 | 8.46 | 40.9 |
NSF10 | 2.5 | 0 | 2.5 | 87 | 38.2 | 3.7 | 6.83 | 31.6 |
NSF11 | 1.25 | 0.15 | 2.5 | 70 | 50.6 | 4.7 | 8.67 | 41.8 |
NSF12 | 1.25 | 0.15 | 2.5 | 65 | 51.4 | 4.5 | 8.42 | 41.4 |
NSF13 | 1.25 | 0.15 | 2.5 | 63 | 51.9 | 4.6 | 8.53 | 40.7 |
NSF14 | 1.25 | 0 | 5 | 82 | 35.3 | 3.5 | 6.62 | 29.2 |
NSF15 | 0 | 0.15 | 5 | 89 | 39.4 | 3.7 | 7.03 | 31.3 |
NSF16 | 2.5 | 0.15 | 5 | 54 | 31.2 | 3.5 | 6.24 | 27.4 |
NSF17 | 1.25 | 0.3 | 5 | 47 | 25.1 | 3.0 | 5.83 | 24.6 |
Source | Sum of Square | Degree of Freedom | Mean Square | F Value | p Value | |
---|---|---|---|---|---|---|
Model | 1193.99 | 9 | 132.67 | 71.70 | <0.0001 | significant |
A | 85.15 | 1 | 85.15 | 46.02 | 0.0003 | |
BF | 218.40 | 1 | 218.40 | 118.03 | <0.0001 | |
C | 110.26 | 1 | 110.26 | 59.59 | 0.0001 | |
AB | 10.56 | 1 | 10.56 | 5.71 | 0.0482 | |
AC | 0.16 | 1 | 0.16 | 0.086 | 0.7772 | |
BC | 0.30 | 1 | 0.30 | 0.16 | 0.6980 | |
A | 119.39 | 1 | 119.39 | 64.52 | <0.0001 | |
B | 311.41 | 1 | 311.41 | 168.30 | <0.0001 | |
C | 261.12 | 1 | 261.12 | 141.12 | <0.0001 | |
Residual | 12.95 | 7 | 1.85 | |||
Lack of Fit | 10.09 | 3 | 3.36 | 4.71 | 0.0844 | not significant |
Cor Total | 1206.94 | 16 |
Source | Sum of Square | Degree of Freedom | Mean Square | F Value | p Value | |
---|---|---|---|---|---|---|
Model | 4.91 | 9 | 0.55 | 54.97 | <0.0001 | significant |
A | 0.28 | 1 | 0.28 | 28.33 | 0.0011 | |
B | 0.55 | 1 | 0.55 | 55.52 | 0.0001 | |
C | 0.32 | 1 | 0.32 | 32.23 | 0.0008 | |
AB | 0.040 | 1 | 0.040 | 4.03 | 0.0847 | |
AC | 0.063 | 1 | 0.063 | 6.29 | 0.0405 | |
BC | 2.50 × 10 | 1 | 2.50 × 10 | 0.25 | 0.6312 | |
A | 0.43 | 1 | 0.43 | 43.43 | 0.0003 | |
B | 1.62 | 1 | 1.62 | 163.02 | <0.0001 | |
C | 1.25 | 1 | 1.25 | 125.96 | <0.0001 | |
Residual | 0.070 | 7 | 9.929 × 10 | |||
Lack of Fit | 0.017 | 3 | 5.833 × 10 | 0.45 | 0.7318 | not significant |
Cor Total | 4.98 | 16 |
Source | Sum of Square | Degree of Freedom | Mean Square | F Value | p Value | |
---|---|---|---|---|---|---|
Model | 14.84 | 9 | 1.65 | 79.73 | <0.0001 | Significant |
A | 0.88 | 1 | 0.88 | 42.77 | 0.0003 | |
B | 1.61 | 1 | 1.61 | 77.91 | <0.0001 | |
C | 1.24 | 1 | 1.24 | 59.98 | 0.0001 | |
AB | 0.21 | 1 | 0.21 | 10.01 | 0.0158 | |
AC | 2.500 × 10 | 1 | 2.500 × 10 | 1.209 × 10 | 0.9732 | |
BC | 4.900 × 10 | 1 | 4.900 × 10 | 0.24 | 0.6413 | |
A | 2.03 | 1 | 2.03 | 98.21 | <0.0001 | |
B | 4.40 | 1 | 4.40 | 212.68 | <0.0001 | |
C | 3.35 | 1 | 3.35 | 162.02 | <0.0001 | |
Residual | 0.14 | 7 | 0.021 | |||
Lack of Fit | 0.050 | 3 | 0.017 | 0.71 | 0.5954 | not Significant |
Cor Total | 14.98 | 16 |
Form | Goal | Lower Limit | Upper Limit |
---|---|---|---|
A | in range | 0 | 2.5 |
B | in range | 0 | 0.3 |
C | in range | 0 | 5 |
R | maximize | 25.1 MPa | 52.3 MPa |
R | maximize | 3.0 MPa | 4.8 MPa |
R | maximize | 5.83 MPa | 8.79 MPa |
Experimental Group | Predicted Value/MPa | Actual Value/% | Inaccuracy/% | ||||||
---|---|---|---|---|---|---|---|---|---|
R | R | R | R | R | R | R | R | R | |
1 | 53.1 | 4.7 | 8.72 | 50.2 | 4.3 | 7.94 | 5.78 | 9.3 | 9.82 |
2 | 53.4 | 4.8 | 8.69 | 9.03 | 2.08 | 1.83 | |||
3 | 48.7 | 4.5 | 8.56 | 0.56 | 4.26 | 0.35 |
Typology | R /MPa | R /MPa | R /MPa | Enhancement Ratio/% | ||
---|---|---|---|---|---|---|
R | R | R | ||||
TBF0 | 41.2 | 3.8 | 7.24 | - | - | - |
Projected value | 53.1 | 4.7 | 8.72 | 28.88 | 23.68 | 20.44 |
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Share and Cite
Yang, X.; Wang, Z.; Wang, X.; Wen, Y.; Du, Y.; Ji, F. Study on Mechanical Properties of Nano-TiC- and Nano-SiO 2 -Modified Basalt Fiber Concrete. Buildings 2024 , 14 , 2120. https://doi.org/10.3390/buildings14072120
Yang X, Wang Z, Wang X, Wen Y, Du Y, Ji F. Study on Mechanical Properties of Nano-TiC- and Nano-SiO 2 -Modified Basalt Fiber Concrete. Buildings . 2024; 14(7):2120. https://doi.org/10.3390/buildings14072120
Yang, Xin, Zhengjun Wang, Xinzheng Wang, Yajing Wen, Yingxin Du, and Fengchun Ji. 2024. "Study on Mechanical Properties of Nano-TiC- and Nano-SiO 2 -Modified Basalt Fiber Concrete" Buildings 14, no. 7: 2120. https://doi.org/10.3390/buildings14072120
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Association "Open Science"
100 Engineering Research Paper Topics
10 October, 2021
13 minutes read
Author: Kate Smith
Engineering is one of the most interesting areas of expertise, yet it’s one of the hardest ones to study and write about. The majority of students who pursue this major struggle with writing papers and getting high grades for them. Therefore, we decided to create this guide to help you understand what is expected from you when your instructor assigns engineering topics. Also, you will find out how to choose the right topic, make it understandable and easy to find references to, and write your paper fast. Besides this, we will provide you with the top 100 engineering research topics that you can use for your homework.
![research paper about mechanical Engineering Research Paper Topics](https://handmadewriting.com/wp-content/uploads/2021/10/Engineering-Paper-Topics.jpg)
What Is an Engineering Research Paper?
Before we give you ideas on the best engineering topics, let’s find out the definition of an engineering research paper first. This is a substantial academic work that falls into the scope of a certain engineering major and discusses how the theoretical principles of engineering work in practice. Such papers are written by students, scholars, and researchers who either do it as part of their research project or as a final paper to defend an academic degree.
The distinctive features of engineering papers are accuracy, novelty, and practicality since they are written to be applied in the respective field of engineering later, e.g. construction, drug production, electricity supply, software development, etc. Therefore, such papers should contain a practical side that allows to check the credibility of research done by a student or a scholar.
Writing engineering papers is important not only due to their potential application to real-life construction and technology, but also to develop the students’ understanding of how the whole process of invention, production, and usage of a certain technology is done. Thus, by writing a paper on engineering topics, you can understand your future profession better and gain the necessary knowledge of communication with contractors, customers, and colleagues.
A Quick Guide to Choosing the Right Topic
Now that you know what an engineering paper is, it’s time to find out how to choose the best topic for it. Below, you can find effective tips on how to embark on the most interesting and relevant topic for writing:
- Discover major trends in your future field of expertise. Before you are given any homework assignment or a research paper topic to write, consider checking trends and news that fall into the scope of your major. For instance, if you are going to become a specialist in mechanical engineering, consider reading news and visiting events for automotive, CAD, control, and maintenance engineers to understand how the industry works. Once you start doing it a few times per month, coming up with the best mechanical engineering topics for writing will not be a problem for you;
- Read the relevant literature. Remember about reading spcialized magazines or online publications from time to time. Doing this will broaden your professional outlook and provide you with interesting insights to study, research, and write about;
- Understand your interests. What was the reason for choosing engineering as your profession? What position do you want to apply for after graduation? Where do you want to intern before getting a degree? Answering these questions will help you detect the most interesting topics covered by your study program and choose the respective engineering topics for writing essays and papers;
- Ask your instructor to choose the topic on your own. You can always ask your professor for permission to opt for a topic from the list of topics of mechanical engineering or other disciplines if you want to. If your professor requires you to write on a given topic only, consider the next tip;
- Reshape the given topic. If you have ideas for improving or modifying the given topic, don’t be afraid to discuss them with your instructor. They will appreciate your creative approach and desire to write an original paper;
- Create the topic yourself. Finally, if you are given total academic freedom, feel free to formulate your paper topic on your own. To make your brainstorming process more productive, write as many engineering topics as possible. Then, choose a few that you like the most, and edit them. Finally, visit your instructor’s office with a few engineering topics listed for approval of one of them.
Here are examples of engineering paper topics to choose from. Consider picking those topics that are already covered by your study program.
![research paper about mechanical engineering research paper topics](https://handmadewriting.com/wp-content/uploads/2022/05/engineering-topics.jpg)
20 Mechanical Engineering Research Topics
- The mechanical engineering background role in the study of robotics.
- The role of structural analysis in mechanical engineering.
- Improvement in manufacturing via implementation of new mechanical theories.
- A parabolic solar cooker: design and performance evaluation.
- Kaplan hydraulic turbines: design and analysis of performance.
- The development of pedal-powered water pumping machines.
- The design and development of a low-cost biomass briquette machine.
- The development of a fire-tube steam boiler for laboratories.
- The design and development of a pedal powered washing machine for low-income communities.
- How to design a night vision camera for a mobile surveillance robot?
- The usage of the Internet of Things for an irrigation monitoring and control system.
- How to design a performance appraisal system for an industrial plant?
- The development of a road pothole detection robot: methods and challenges.
- Advanced engineering materials: Key to Millennium Development Goals in Third-World Countries.
- The detailed evaluation of natural gas potentials in the economic development of North European countries.
- How to process activated Carbon from agricultural waste?
- Case study: energy consumption and demand in Bayside High School, Queens, NY.
- The role of mechanical engineering in modern medicine.
- The reduction of energy costs through the usage of solar panels: the solution for developing countries.
- What is the global effect of gas flaring?
20 Biomedical Engineering Research Topics
Before choosing any topic on the list, be sure to check whether it falls in the scope of your subject. The following biomedical engineering topics are intended for college as well as Master’s students:
- How to measure the blood glucose level based on blood resistivity?
- How to design a programmed Oxygen delivery system?
- The design of a central medical waste recycling plant: pros and cons.
- The real-time heart sounds recognition tool development: the breakthrough in treating heart conditions.
- How to develop a management program for a clinical engineering department?
- The expert system design for diagnosing pulmonary tuberculosis.
- Artificial neural networks usage in diagnosing breast cancer.
- Prediction of kidney failure: how to realize it with artificial neural networks?
- Using gold nanoparticles in designing a detector for vaccine containers.
- Statistical methods in heartbeat rate variability analysis.
- How to develop a model to inspect medical devices in health facilities?
- The challenges of implementation of a non-invasive malaria detection system.
- The development of an inspection protocol for imported medical devices: problems and solutions.
- The role of nanotechnologies in biomedical engineering.
- The modern neural technology: the current advancements and the potential of the field.
- Medical virtual reality and its potential effectiveness for treating patients.
- The impact of computational biology on our lives.
- Technology-fueled medications: is there any future for them?
- The usage of early diagnosis systems in treating heart illnesses.
- How can nanotechnologies be used in creating cancer vaccines?
20 Electrical Engineering Research Topics
- Quantifying the cost of an unplanned outage at Astoria East Energy – CC1 and CC2 Power Station.
- How to design and produce an electronic siren?
- The impact of scientific changes of the 19th century on modern engineering.
- How to implement solar technologies in the life of modern cities?
- The ways to save energy costs through setting up automated systems.
- How can city authorities improve on energy distribution?
- The usage of semiconductor topology: peculiarities and challenges.
- The design and development of an automated street lighting system.
- Developing battery charging control for the system of wind energy generation.
- Th comparative analysis of the most effective ways of testing power systems.
- Storing power in ion batteries: challenges, peculiarities, and potential.
- Measuring the most accurate ways to forecast electric loads for cities.
- Globalization and energy distribution: challenges and prospects for developing countries.
- Kenya Electricity Industry: Current Problems and Solutions.
- The renewable energy potentials in African countries.
- The ways of using the Internet of Things in developing modern electricity industries.
- Sustainable future and alternative sources of power: evaluation and predictions.
- The evaluation of modern US hybrid distributed energy systems performance.
- Modeling of core loss in an induction machine.
- Design and development of the monitoring system for a robotic arm.
The electrical engineering topics presented above can be used for Bachelor’s and Master’s projects; however, consider narrowing down the topic you choose if you have written similar papers before.
![](http://2me.site/777/templates/cheerup/res/banner1.gif)
20 Topics on Civil Engineering
- Fire risk assessment of Atlanta construction companies.
- How to create models for predicting the compressive strength of concrete?
- The usage of concrete alternatives as a way to cut expenditures for cities.
- Natural disasters prevention: the steps for rural communities.
- The biggest infrastructure challenges for Nigeria and their solutions.
- The distribution of water to dry areas in Cape Verde.
- The impact of civil engineering on the life level in the 20th century.
- The role of road planning in building sustainable city life.
- The ancient building principles in modern civil engineering: the importance of past experience.
- Developing smart housings as a way to build a sustainable city.
- How to measure sustainability in the context of urban water management in North Asia?
- The ways to manage the outcomes of the volcano eruption in modern cities.
- The impact of stress and anxiety on the productivity of construction workers in Latin America.
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20 Software Engineering Topics
- Evaluating strategies for optimizing password management against hacker attacks.
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- The implementation of an automated parking lot system.
- The challenges for data security in online trading systems.
- The pros and cons of using chatbot technologies for ensuring customer satisfaction.
- Does society need to rethink the extent to which we interact with computer technologies?
- The pros and cons of using different programming languages in the context of changing working places.
- The ways for a user to evaluate the quality of a mobile app.
- The improvement of databases in the last twenty years.
- How to improve the weather forecasting systems with modern software?
- The evaluation and improvement of Argentina railway tracking systems.
- The design of a low-cost health monitoring system for hospitals.
- Using the latest software advancements for teaching primary school students.
- The methods of increasing online security in university campuses’ online networks.
- User strategies for optimization of electronic books memory capacity.
- Development of a secure contact payment system for Chad cities.
Now that you are familiar with the most up-to-date engineering topics, we suggest that you choose at least three for your next assignment. Don’t forget to contact your instructor to reach agreement on the topic you like the most, and start working on it according to our tips at the beginning of this guide. Remember: every topic from our list can be elaborated according to your discipline and year of study.
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MIT researchers introduce generative AI for databases
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A new tool makes it easier for database users to perform complicated statistical analyses of tabular data without the need to know what is going on behind the scenes.
GenSQL, a generative AI system for databases, could help users make predictions, detect anomalies, guess missing values, fix errors, or generate synthetic data with just a few keystrokes.
For instance, if the system were used to analyze medical data from a patient who has always had high blood pressure, it could catch a blood pressure reading that is low for that particular patient but would otherwise be in the normal range.
GenSQL automatically integrates a tabular dataset and a generative probabilistic AI model, which can account for uncertainty and adjust their decision-making based on new data.
Moreover, GenSQL can be used to produce and analyze synthetic data that mimic the real data in a database. This could be especially useful in situations where sensitive data cannot be shared, such as patient health records, or when real data are sparse.
This new tool is built on top of SQL, a programming language for database creation and manipulation that was introduced in the late 1970s and is used by millions of developers worldwide.
“Historically, SQL taught the business world what a computer could do. They didn’t have to write custom programs, they just had to ask questions of a database in high-level language. We think that, when we move from just querying data to asking questions of models and data, we are going to need an analogous language that teaches people the coherent questions you can ask a computer that has a probabilistic model of the data,” says Vikash Mansinghka ’05, MEng ’09, PhD ’09, senior author of a paper introducing GenSQL and a principal research scientist and leader of the Probabilistic Computing Project in the MIT Department of Brain and Cognitive Sciences.
When the researchers compared GenSQL to popular, AI-based approaches for data analysis, they found that it was not only faster but also produced more accurate results. Importantly, the probabilistic models used by GenSQL are explainable, so users can read and edit them.
“Looking at the data and trying to find some meaningful patterns by just using some simple statistical rules might miss important interactions. You really want to capture the correlations and the dependencies of the variables, which can be quite complicated, in a model. With GenSQL, we want to enable a large set of users to query their data and their model without having to know all the details,” adds lead author Mathieu Huot, a research scientist in the Department of Brain and Cognitive Sciences and member of the Probabilistic Computing Project.
They are joined on the paper by Matin Ghavami and Alexander Lew, MIT graduate students; Cameron Freer, a research scientist; Ulrich Schaechtle and Zane Shelby of Digital Garage; Martin Rinard, an MIT professor in the Department of Electrical Engineering and Computer Science and member of the Computer Science and Artificial Intelligence Laboratory (CSAIL); and Feras Saad ’15, MEng ’16, PhD ’22, an assistant professor at Carnegie Mellon University. The research was recently presented at the ACM Conference on Programming Language Design and Implementation.
Combining models and databases
SQL, which stands for structured query language, is a programming language for storing and manipulating information in a database. In SQL, people can ask questions about data using keywords, such as by summing, filtering, or grouping database records.
However, querying a model can provide deeper insights, since models can capture what data imply for an individual. For instance, a female developer who wonders if she is underpaid is likely more interested in what salary data mean for her individually than in trends from database records.
The researchers noticed that SQL didn’t provide an effective way to incorporate probabilistic AI models, but at the same time, approaches that use probabilistic models to make inferences didn’t support complex database queries.
They built GenSQL to fill this gap, enabling someone to query both a dataset and a probabilistic model using a straightforward yet powerful formal programming language.
A GenSQL user uploads their data and probabilistic model, which the system automatically integrates. Then, she can run queries on data that also get input from the probabilistic model running behind the scenes. This not only enables more complex queries but can also provide more accurate answers.
For instance, a query in GenSQL might be something like, “How likely is it that a developer from Seattle knows the programming language Rust?” Just looking at a correlation between columns in a database might miss subtle dependencies. Incorporating a probabilistic model can capture more complex interactions.
Plus, the probabilistic models GenSQL utilizes are auditable, so people can see which data the model uses for decision-making. In addition, these models provide measures of calibrated uncertainty along with each answer.
For instance, with this calibrated uncertainty, if one queries the model for predicted outcomes of different cancer treatments for a patient from a minority group that is underrepresented in the dataset, GenSQL would tell the user that it is uncertain, and how uncertain it is, rather than overconfidently advocating for the wrong treatment.
Faster and more accurate results
To evaluate GenSQL, the researchers compared their system to popular baseline methods that use neural networks. GenSQL was between 1.7 and 6.8 times faster than these approaches, executing most queries in a few milliseconds while providing more accurate results.
They also applied GenSQL in two case studies: one in which the system identified mislabeled clinical trial data and the other in which it generated accurate synthetic data that captured complex relationships in genomics.
Next, the researchers want to apply GenSQL more broadly to conduct largescale modeling of human populations. With GenSQL, they can generate synthetic data to draw inferences about things like health and salary while controlling what information is used in the analysis.
They also want to make GenSQL easier to use and more powerful by adding new optimizations and automation to the system. In the long run, the researchers want to enable users to make natural language queries in GenSQL. Their goal is to eventually develop a ChatGPT-like AI expert one could talk to about any database, which grounds its answers using GenSQL queries.
This research is funded, in part, by the Defense Advanced Research Projects Agency (DARPA), Google, and the Siegel Family Foundation.
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- Vikash Mansinghka
- Martin Rinard
- Probabilistic Computing Project
- Computer Science and Artificial Intelligence Laboratory
- Department of Brain and Cognitive Sciences
- Department of Electrical Engineering and Computer Science
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- Review Article
- Published: 02 July 2024
Integrating organoids and organ-on-a-chip devices
- Yimu Zhao ORCID: orcid.org/0000-0001-8265-8647 1 , 2 na1 ,
- Shira Landau ORCID: orcid.org/0000-0002-3514-3656 1 , 2 na1 ,
- Sargol Okhovatian ORCID: orcid.org/0000-0002-2565-7397 1 , 2 ,
- Chuan Liu ORCID: orcid.org/0000-0001-7309-1095 1 , 2 ,
- Rick Xing Ze Lu 1 ,
- Benjamin Fook Lun Lai 1 ,
- Qinghua Wu 1 , 2 ,
- Jennifer Kieda ORCID: orcid.org/0000-0003-4748-3460 1 ,
- Krisco Cheung 3 ,
- Shravanthi Rajasekar 4 ,
- Kimia Jozani 5 ,
- Boyang Zhang 4 , 5 &
- Milica Radisic ORCID: orcid.org/0000-0003-1249-4135 1 , 2 , 3 , 6
Nature Reviews Bioengineering volume 2 , pages 588–608 ( 2024 ) Cite this article
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- Induced pluripotent stem cells
- Tissue engineering
Organoids and organs-on-chips are two rapidly emerging 3D cell culture techniques that aim to bridge the gap between in vitro 2D cultures and animal models to enable clinically relevant drug discovery and model human diseases. Despite their similar goals, they use different approaches and exhibit varying requirements for implementation. Integrative approaches promise to provide improved cellular fidelity in the format of a device that can control the geometry of the organoid and provide flow, mechanical and electrical stimuli. In this Review, we discuss recent integrative approaches in the areas of intestine, kidney, lung, liver, pancreas, brain, retina, heart and tumour. We start by defining the two fields and describe how they emerged from the fields of tissue engineering, regenerative medicine and stem cells. We compare the scales at which the two methods operate and briefly describe their achievements, followed by studies integrating organoids and organ-on-a-chip devices. Finally, we define implementation limitations and requirements for translation of the integrated devices, including determining the differentiation stage at which an organoid should be placed into an organ-on-a-chip device, providing perfusable vasculature within the organoid and overcoming limitations of cell line and batch-to-batch variability.
Organoids and organs-on-chips (OoCs) aim to improve drug testing and disease modelling, but integration examples are still scarce.
The benefits of integration include organ-specific cellular hierarchy and structural fidelity; microscopic features from OoCs guiding tissue morphological formation; better reproducibility and scale-up capacities; and biocompatible built-in sensors for in situ functional readouts and industrially compatible culture formats.
A key challenge is vascularizing organoids with tissue-specific endothelial cells and aligning different cell types in organoids with appropriate flow in scalable, integrated devices.
In parallel, advances in computer vision and deep learning will be needed to enhance data processing and analysis. Addressing cell line variability and establishing validation criteria for OoC–organoid integrated devices is critical for commercial and translational success.
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Acknowledgements
Our work is funded by Canadian Institutes of Health Research (CIHR) Foundation grant FDN-167274, Natural Sciences and Engineering Research Council of Canada (NSERC) Discovery grant (RGPIN 326982-10), NSERC-CIHR Collaborative Health Research grant (CHRP 493737-16), US National Institutes of Health grant 2R01 HL076485 and a Stem Cell Network Impact Award (IMP-C4R1-3). M.R. was supported by the Killam Fellowship and Canada Research Chair. Y.Z. was supported by a CIHR postdoctoral award. S.L. was supported by a Rothschild, Zuckerman, and EMBO (ALTF 530-2022) fellowship.
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These authors contributed equally: Yimu Zhao, Shira Landau.
Authors and Affiliations
Institute of Biomedical Engineering, University of Toronto, Toronto, Ontario, Canada
Yimu Zhao, Shira Landau, Sargol Okhovatian, Chuan Liu, Rick Xing Ze Lu, Benjamin Fook Lun Lai, Qinghua Wu, Jennifer Kieda & Milica Radisic
Toronto General Hospital Research Institute, University Health Network, Toronto, Ontario, Canada
Yimu Zhao, Shira Landau, Sargol Okhovatian, Chuan Liu, Qinghua Wu & Milica Radisic
Department of Chemical Engineering and Applied Chemistry, University of Toronto, Toronto, Ontario, Canada
Krisco Cheung & Milica Radisic
Department of Chemical Engineering, McMaster University, Hamilton, Ontario, Canada
Shravanthi Rajasekar & Boyang Zhang
School of Biomedical Engineering, McMaster University, Hamilton, Ontario, Canada
Kimia Jozani & Boyang Zhang
Terrence Donnelly Centre for Cellular & Biomolecular Research, University of Toronto, Toronto, Ontario, Canada
Milica Radisic
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Conceptualization: M.R., Y.Z., S.L. and S.O. Writing – original draft: Y.Z., S.L., S.O., C.L., R.X.Z.L., B.F.L.L., Q.W., J.K., K.C., S.R., K.J., B.Z. and M.R. Writing – review and editing: M.R., Y.Z., S.L. and S.O. Visualization: Y.Z., S.L., S.O. and K.C. Supervision: M.R. and B.Z. Project administration: M.R. Funding acquisition: M.R. and B.Z.
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M.R., Y.Z. and B.Z. are inventors on an issued US patent for Biowire technology that is licensed to Valo Health; they receive royalties for this invention. B.Z. and S.R. are co-founders and hold equity in OrganoBiotech. The remaining authors declare no competing interests.
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Bioconvergence hub: https://bico.com/what-we-do/
Comprehensive In Vitro Pro-arrhythmia Assay (CIPA): https://cipaproject.org/
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IQ consortium: https://iqconsortium.org/
United Network for Organ Sharing: https://unos.org/
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Zhao, Y., Landau, S., Okhovatian, S. et al. Integrating organoids and organ-on-a-chip devices. Nat Rev Bioeng 2 , 588–608 (2024). https://doi.org/10.1038/s44222-024-00207-z
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Accepted : 11 April 2024
Published : 02 July 2024
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DOI : https://doi.org/10.1038/s44222-024-00207-z
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Research on Convex Fiber Grating Tactile Sliding Sensor Based on Mechanical Fingers
In order to solve the problem of flexible sliding tactile composite sensing in the actual grasp of intelligent robot fingers, this paper proposes a research on a convex fiber grating tactile sliding sensor based on mechanical fingers. Based on the sensing principle of fiber Bragg grating, 3D printing technology was used to encapsulate the FBG sensor array with elastic 50 A resin, a double-layer "hemispherical cuboid" distributed sensing unit was designed, and the FBG slippery tactile sensor was actually pasted on the surface of the mechanical finger for static and dynamic experiments. The experimental results show that the slippery tactile sensor designed in this paper has a good linear relationship with temperature and strain. The temperature sensitivities of the polymer-packaged FBGs are KT1 = 13.04 pm/°C and KT2 = 12.91 pm/°C, and they have a pressure sensitivity of 40.4 pm/N and 31.2 pm/N, respectively. The FBG sliding tactile sensor not only realizes the identification of the sliding signal generation point and the end point but also completes the classification and identification of sandpaper, cardboard, and polypropylene plastic, and it has a high degree of fit with the robot finger, which has certain application value for the intelligent robot sliding tactile signal perception.
- touch-sliding sensing;
- FBG sensor array;
- mechanical finger;
- convex type;
- sliding recognition
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150+ Best Engineering Research Topics for Students To Consider
Table of Contents
Engineering is a wide field of study that is divided into various branches such as Civil, Electrical, Mechanical, Electronics, Chemical, etc. Basically, each branch has thousands of engineering research topics to focus on. Hence, when you are asked to prepare an engineering research paper or dissertation for your final year assignments, you might experience difficulties with identifying a perfect topic. But hereafter, you need not worry about topic selection because to make the topic selection process easier for you, here we have suggested some tips for choosing a good engineering research topic. Additionally, we have also shared a list of the best 150+ engineering research paper topics on various specializations. Continue reading this blog to get exclusive ideas for engineering research paper writing.
Engineering Research Paper Topic Selection Tips
When it comes to research in the field of engineering, identifying the best engineering research topic is the first step. So, during that process, in order to identify the right topic, consider the following tips.
- Choose a topic from the research area matching your interest.
- Give preference to a topic that has a large scope to conduct research activities.
- Pick a topic that has several reference materials and evidence supporting your analysis.
- Avoid choosing an already or frequently discussed topic. If the topic is popular, discuss it from a different perspective.
- Never choose a larger topic that is tough to complete before the deadline.
- Finalize the topic only if it satisfies your academic requirements.
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List of the Best Engineering Research Topics
Are you searching for the top engineering project ideas? Would you have to complete your academic paper on the best engineering research topic? If yes, then take a look below. Here, we have suggested a few interesting engineering topics in various disciplines that you can consider for your research or dissertation.
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Mechanical Engineering Research Topics
- How does the study of robotics benefit from a mechanical engineering background?
- How can a new composite substitute reduce costs in large heat exchangers?
- Which will become the predominant energy technology this century?
- Why structural analysis is considered the foundation of mechanical engineering?
- Why is cast iron used in the engines of large ships?
- What is the finite element approach and why is it essential?
- Why is the flow of fluids important in mechanical engineering?
- What impact does mechanical engineering have in the medical field?
- How do sports incorporate mechanical engineering theories?
- What is the process of thermal heat transfer in machines?
- How can solar panels reduce energy costs in developing countries?
- In what ways is mechanical engineering at the forefront of the field?
- How do various elements interact differently with energy?
- How can companies improve manufacturing through new mechanical theories?
Additional Research Paper Topics on Mechanical Engineering
- Power generation: Extremely low emission technology.
- Rail and wheel wear during the presence of third-body materials.
- Studying the impact of athletic shoe properties on running performance and injuries
- Evaluating teeth decay using patient-specific tools
- Nanotechnology.
- Describe the newly developed methods and applications in Vibration Systems
- Perspective or general Commentaries on the methods and protocols relevant to the research relating to Vibration Systems
- Software-related technology for Visibility of end-to-end operations for employee and management efficiencies
- What should be the best strategies to apply in the planning for consumer demand and responsiveness using data analytics
- Analysis of the monitoring of manufacturing processes using IOT/AI
- Critical analysis of the advancing digital manufacturing with artificial intelligence (AI) and machine learning (ML) Data Analytics
- Pyrolysis and Oxidation for Production and Consumption of Strongly Oxygenated Hydrocarbons as Chemical Energy Carriers: Explain
- Explore the most effective strategies for fatigue-fracture and failure prevention of automotive engines and the importance of such prevention
- Explore the turbomachinery performance and stability enhancement by means of end-wall flow modification
- Production optimization, engine performance, and tribological characteristics of biofuels and their blends in internal combustion engines as alternative fuels: Explain
Civil Engineering Research Topics
- The use of sustainable materials for construction: design and delivery methods.
- State-of-the-art practice for recycling in the construction industry.
- In-depth research on the wastewater treatment process
- Building Information Modelling in the construction industry
- Research to study the impact of sustainability concepts on organizational growth and development.
- The use of warm-mix asphalt in road construction
- Development of sustainable homes making use of renewable energy sources.
- The role of environmental assessment tools in sustainable construction
- Research to study the properties of concrete to achieve sustainability.
- A high-level review of the barriers and drivers for sustainable buildings in developing countries
- Sustainable technologies for the building construction industry
- Research regarding micromechanics of granular materials.
- Research to set up remote sensing applications to assist in the development of sustainable construction techniques.
- Key factors and risk factors associated with the construction of high-rise buildings.
- Use of a single-phase bridge rectifier
- Hydraulic Engineering: A Brief Overview
- Application of GIS techniques for planetary and space exploration
- Reengineering the manufacturing systems for the future.
- Production Planning and Control.
- Project Management.
- Quality Control and Management.
- Reliability and Maintenance Engineering.
Environmental Engineering Research Paper Topics
- Design and development of a system for measuring the carbon index of energy-intensive companies.
- Improving processes to reduce kWh usage.
- How can water conductivity probes help determine water quality and how can water be reused?
- A study of compressor operations on a forging site and mapping operations to identify and remove energy waste.
- A project to set up ways to measure natural gas flow ultrasonically and identify waste areas.
- Developing a compact device to measure energy use for a household.
- What are carbon credits and how can organizations generate them?
- Production of biogas is from organic coral waste.
- Analyzing the impact of the aviation industry on the environment and the potential ways to reduce it.
- How can voltage reduction devices help organizations achieve efficiency in electricity usage?
- What technologies exist to minimize the waste caused by offshore drilling?
- Identify the ways by which efficient control systems using information systems can be introduced to study the energy usage in a machining factory.
- The process mapping techniques to identify bottlenecks for the supply chain industry.
- Process improvement techniques to identify and remove waste in the automotive industry.
- In what ways do green buildings improve the quality of life?
- Discussion on the need to develop green cities to ensure environmental sustainability
- Process of carbon dioxide sequestration, separation, and utilization
- Development of facilities for wastewater treatment
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Read more topics: Outstanding Environmental Science Topics for You to Consider
Electrical Engineering Research Topics
- Research to study transformer losses and reduce energy loss.
- How does an ultra-low-power integrated circuit work?
- Setting up a control system to monitor the process usage of compressors.
- Integration of smart metering pulsed outputs with wireless area networks and access to real-time data.
- What are the problems of using semiconductor topology?
- Developing effective strategies and methodical systems for paying as-you-go charging for electric vehicles.
- A detailed review and investigation into the key issues and challenges facing rechargeable lithium batteries.
- Trends and challenges in electric vehicles technologies
- Research to investigate, develop and introduce schemes to ensure efficient energy consumption by electrical machines.
- What is meant by regenerative braking?
- Smart charging of electric vehicles on the motorway
- Research to study metering techniques to control and improve efficiency.
- Develop a scheme to normalize compressor output to kWh.
- Research to introduce smart metering concepts to ensure efficient use of electricity.
- What is the most accurate method of forecasting electric loads?
- Fundamentals of Nanoelectronics
- Use of DC-to-DC converter in DC (Direct Current) power grid
- Development of Microgrid Integration
Electronics and Communications Engineering Research Topics
- Developing the embedded communication system for the national grid to optimize energy usage.
- Improvement of inter-symbol interference in optical communications.
- Defining the boundaries of electrical signals for current electronics systems.
- The limitation of fiber optic communication systems and the possibility of improving their efficiency.
- Gaussian pulse analysis and the improvement of this pulse to reduce errors.
- A study of the various forms of errors and the development of an equalization technique to reduce the error rates in data.
- Realizing the potential of RFID in the improvement of the supply chain.
- Design of high-speed communication circuits that effectively cut down signal noise.
- Radiation in integrated circuits and electronic devices.
- Spectral sensing research for water monitoring applications and frontier science and technology for chemical, biological, and radiological defense.
Computer and Software Engineering Research Topics
- How do businesses benefit from the use of data mining technologies?
- What are the risks of implementing radio-controlled home locks?
- To what extent should humans interact with computer technologies?
- Are financial trading systems operating over the web putting clients at risk?
- What challenges do organizations face with supply chain traceability?
- Do chatbot technologies negatively impact customer service?
- What does the future of computer engineering look like?
- What are the major concepts of software engineering?
- Are fingerprint-based money machines safe to use?
- What are the biggest challenges of using different programming languages?
- The role of risk management in information technology systems of organizations.
- In what ways does MOOD enhancement help software reliability?
- Are fingerprint-based voting systems the way of the future?
- How can one use an AES algorithm for the encryption of images?
- How can biological techniques be applied to software fault detection?
Read more: Creative Capstone Project Ideas For Students
Network and Cybersecurity Engineering Research Topics
- Write about Cybersecurity and malware connection.
- How to detect mobile phone hacking.
- Discuss Network intrusion detection and remedies.
- How to improve network security using attack graph models.
- Explain Modern virus encryption technology.
- Investigate the importance of algorithm encryption.
- Discuss the role of a firewall in securing networks.
- Write about the global cybersecurity strategy.
- Discuss the Privacy and security issues in chatbots.
- Write about Cloud security engineering specifics
Industrial Engineering Research Paper Topics
- The application of lean or Six Sigma in hospitals and services-related industries.
- The use of operation research techniques to reduce cost or improve efficiency.
- Advanced manufacturing techniques like additive manufacturing.
- Innovation as a Complex Adaptive System.
- CAD-based optimization in any manufacturing environment.
- Gap analysis in any manufacturing firm.
- The impact of 3D printing in the manufacturing sector.
- Simulating a real-life manufacturing environment into simulating software
- The rise of design and its use in the developing world.
- Building a network-based methodology to model supply chain systems.
- Risk optimization With P-order comic constraint
- Technology and its impact on mass customization
- How project management becomes more complex with disparate teams and outsourced functions?
- Scheduling problem for health care patients.
Biomedical Engineering Research Ideas
- How does the use of medical imaging help patients with higher risks?
- How can rehabilitation techniques be used to improve a patient’s quality of life?
- In what ways can biomaterials be used to deliver medications more efficiently?
- What impact does medical virtual reality have on a patient’s care?
- What advancements have been made in the field of neural technology?
- How does nanotechnology pave the way for further advancements in this field?
- What is computational biology and how does it impact our lives?
- How accurate are early diagnosis systems in detecting heart diseases?
- What does the future hold for technology-fueled medications?
- What are the guiding principles of biomedical engineering research?
Read more: Top Biology Research Topics for Academic Writing
Chemical Engineering Research Topics
- How can epoxy resins withstand the force generated by a firing gun?
- The use of software affected design aspects in chemical engineering.
- What challenges are there for biochemical engineering to support health?
- The advancements of plastic technology in the last half-century.
- How can chemical technologies be used to diagnose diseases?
- What are the most efficient pathways to the development of biofuels?
- How can charcoal particles be used to filter water in developing countries?
- Increased production of pharmacy drugs in many countries.
- How do complex fluids and polymers create more sustainable machinery?
Miscellaneous Engineering Research Ideas
- Sensing and controlling the intensity of light in LEDs.
- Design and development of a pressure sensor for a solar thermal panel.
- Development of microsensors to measure oil flow rate in tanks.
- How can organizations achieve success by reducing bottlenecks in the supply chain?
- Research to identify efficient logistics operations within a supply chain.
- Developing frameworks for sustainable assessments taking into account eco-engineering measures.
- Research to identify process improvement plans to support business strategies.
- What can engineers do to address the problems with climate change?
- The impact of training on knowledge performance index within the supply chain industry.
- Research to introduce efficiency within information systems and support the timely transfer of knowledge and information.
Out of the 150+ engineering research paper topics and ideas suggested in this blog, choose any topic that is convenient for you to conduct research and write about. In case, you have not yet identified a good topic for your engineering research paper, reach out to us immediately.
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I am an Academic Writer and have affection to share my knowledge through posts’. I do not feel tiredness while research and analyzing the things. Sometime, I write down hundred of research topics as per the students requirements. I want to share solution oriented content to the students.
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Mechanical Engineering
Mechanical engineering research papers/topics, simulation of deformation behaviour of aluminium 7075 during equal channel angular pressing (ecap).
Abstract This paper presents a finite element simulation of equal channel angular pressing (ECAP) since it is one of the most common and successful severe plastic deformation techniques. This study reports the influence of the most significant factors influencing the ECAP technique. Through finite element simulation, the effect of the die geometry, workpiece geometry, and the pressing speed on the effective strain distributions, damage, and pressing loads, were investigated. The influence of...
The estimation of broiler respiration rate based on the semantic segmentation and video amplification
Abstract Respiratory rate is an indicator of a broilers’ stress and health status, thus, it is essential to detect respiratory rate contactless and stress-freely. This study proposed an estimation method of broiler respiratory rate by deep learning and machine vision. Experiments were performed at New Hope (Shandong Province, P. R. China) and Wen’s group (Guangdong Province, P. R. China), and a total of 300 min of video data were collected. By separating video frames, a data set of 3,000...
DESIGN AND DEVELOPMENT OF TRACTOR MOUNTED POTATO PLANTER
Abstract: Potato is the most important vegetable crop in developing countries. Potato cultivation is a labour intensive work. Human labor is still the main source of power used in agricultural works in Ethiopia. Thus, in manual method of planting there is high wastage of human energy, time and effort. This study was initiated to design, manufacture, test and performance evaluation of a prototype tractor mounted potato planter. The prototype planter consisted of main frame, hopper, casing, fu...
Tungsten carbide thin films review: effect of deposition parameters on film microstructure and properties
Abstract: In this work, the property of physically deposited thin WC films with respect to deposition parameters and conditions reported by previous researchers is being reviewed. The study provides deeper insight to the effect of deposition parameters as well as preliminary selection of parameters for optimization of the WC film preparation for improved tribological properties for industrial applications. Not much studies of WC thin films deposited though PVD methods have been reviewed henc...
Effect of media shape on particle breakage in a batch ball mill: lessons learnt from population balance model and attainable region technique
Abstract: The batch grinding equation and the Attainable region technique tools were used in evaluating data obtained from the breakage of quartz ore in a laboratory batch ball mill. Using the same milling conditions and grinding equipment, test results were evaluated through the breakage distributions of different size fractions. Results prove that mixing different grinding media increases volume of grinding zones and that translates to an improvement in grinding kinetics and amount of requ...
Effect of interstitial filling, ball and feed size on particle breakage in a laboratory ball mill: an attainable region technique
Abstract: The interstitial filling, grinding media and feed particle size are vital parameters to be considered during ball mill operation. Experiments were conducted to ascertain whether there are possible interactions between the three variables and the fineness of the required product. The data obtained was analysed using the Attainable Region (AR) optimization method which is a model-free and equipment-independent tool. Experimental results indicate that there is a need to adjust or corr...
Turbulent flow inside longitudinally corrugated pipes
Abstract: Longitudinally corrugated pipes can be described as pipes with periodically converging-diverging cross-area arranged along the flow course. These pipes are mainly utilized in engineering applications, for example, pipe flow in a heat exchanger where wall corrugation improves heat convection,gas to liquid contractors in the chemical business, ventilation, air conditioning, drag reduction and mass transfer efficiency. Both experimental and analytical works detailed the impact of c...
Hydrothermal and entropy production analyses of magneto-cross nanoliquid under rectified Fourier viewpoint: a robust approach to industrial applications
Abstract: The present article has been groomed to explore the boundary-driven magnetized flow of cross nanoliquid over thin needle subject to auto catalysis chemical reactions. In addition to it, the effect of entropy optimization model is incorporated and transportation of heat under non-uniform heat source/sink, Cattaneo-Christov heat flux (rectified Fourier) viewpoint (CCHF), and non-linear thermal radiation is also taken into account. Furthermore, the Brownian and thermophoresis aspects ...
Design, modelling, and simulation of solar photovoltaic driven air-conditioning systems for herbaria collection in Botswana
Abstract: The demand for cooling has grown exponentially over the past century to meet economic development, availability, comfort and social needs, accounting for over 10% of the global electricity consumption and growing. Rising global temperatures have also contributed to the growing need for cooling in buildings. Cooling, is a very energy-intensive process that can account for 20% to 75% of a building's energy, depending on the building use. Solar photovoltaic (PV) driven air-conditionin...
Evaluation of Dunaliella salina microalgae for biodiesel production a case study (Botswana Ash Company)
Abstract: Production of biodiesel from microalgae has received worldwide recognition as an alternative to petroleum diesel. The process involves culturing, harvesting, drying, extraction, transesterification and characterisation of the microalgae biomass to biodiesel. The research aimed to investigate the potential of Dunaliella salina microalgae inhabiting in Botash Company’s solar ponds Botswana for biodiesel production. Optimum salinity and nutrients concentrations that produced maximum...
Design of a gas atomising system capable of producing suitable aluminium powder for Selective Laser Melting (SLM) process
Abstract: Documentation on the correct process parameters and component requirements for setting up efficient aluminum powder production systems capable of manufacturing powder that meets the requirements for the selective laser melting (SLM) process is not available due to its proprietary nature. This hinders powder metallurgy (PM) trainees in acquiring knowledge and skills needed in setting up such metal powder production systems. To address this challenge, powder requirements for the SLM ...
Lateral crashworthiness response of bombyx mori fibre/glass–fibre/epoxy hybrid composite cylindrical tubes-experimental
Abstract: Experimental studies were undertaken to investigate the effect of reinforced fibre hybridization on the crushing characteristics of quasi-static laterally compressed cylindrical composite tubes. Woven glass fibre (GF) and woven bombyx mori fibre (B.mori) were used as reinforcements and industrial epoxy was used as the matrix material to fabricate the reinforced hybrid composite specimen. Three sets of specimen were fabricated, (1) glass fibre/epoxy (2) B.mori fibre/epoxy and (3) GF...
A review on drones controlled in real-time
Abstract: This paper presents related literature review on drones or unmanned aerial vehicles that are controlled in real-time. Systems in real-time control create more deterministic response such that tasks are guaranteed to be completed within a specified time. This system characteristic is very much desirable for drones that are now required to perform more sophisticated tasks. The reviewed materials presented were chosen to highlight drones that are controlled in real time, and to includ...
A secured and efficient communication scheme for decentralized cognitive radio-based internet of vehicles
Abstract: The advancements in hardware technologies have driven the evolution of vehicular ad hoc networks into the Internet of Vehicles (IoV). The IoV is a decentralized network of IoT-enabled vehicles capable of smooth traffic flow to perform fleet management and accident avoidance. The IoV has many commercial applications due to improved security and safety on the roads. However, the rapidly increasing number of wireless applications have challenged the existing spectrum bands allocated t...
Basic Principle of Machining and Arc Welding
ABSTRACT This project tittle ‘’basic principle of machining’’ deal with the operations on lathe, milling and some part of arc welding, turning, taper turning, threading, knurling and chamfering, while on milling machine spur Gears were cut, forming a hexagon shape and square shape were all done on milling machine. A simple component/part which contained all the above mention operation were produced in one work piece. In conclusion we are able to produce spurs gears, square thread, an...
Mechanical Engineering is branch of engineering that deals with the design, construction, and use of machines Afribary curates list of academic papers and project topics in Mechanical Engineering. You can browse mechanical engineering project topics, mechanical engineering seminar topics, mechanical engineering thesis, Assignments, Termpapers etc
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Four new CSE department heads begin in 2024-25
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Professor James Kakalios of the School of Physics and Astronomy was one of four new department heads named by CSE Dean Andrew Alleyne. These new department heads bring a wealth of academic, research, and leadership abilities to their departments.
School of Physics and Astronomy
Professor James Kakalios has been appointed as the new department head for the School of Physics and Astronomy. Kakalios started his five-year term on July 1, 2024.
Since joining the School of Physics and Astronomy in 1988, Kakalios has built a research program in experimental condensed matter physics, with particular emphasis on complex and disordered systems. His research ranges from the nano to the neuro with experimental investigations of the electronic and optical properties of nanostructured semiconductors and fluctuation phenomena in neurological systems.
During his time at the University of Minnesota, Kakalios has served as both director of undergraduate studies and director of graduate studies. He has received numerous awards and professorships including the University’s Taylor Distinguished Professorship, Andrew Gemant Award from the American Institute of Physics, and the Award for Public Engagement with Science from the American Association for the Advancement of Science (AAAS). He is a fellow of both the American Physical Society and AAAS.
In addition to numerous research publications, Kakalios is the author of three popular science books— The Physics of Superheroes , The Amazing Story of Quantum Mechanics , and The Physics of Everyday Things .
Kaklios received a bachelor’s degree from City College of New York and master’s and Ph.D. degrees from the University of Chicago.
Department of Chemical Engineering and Materials Science
Professor Kevin Dorfman has been appointed as the new d epartment h ead for the Department of Chemical Engineering and Materials Science (CEMS). Dorfman started his five-year term on July 1, 2024.
Dorfman joined the University of Minnesota faculty in January of 2006 and was quickly promoted up the ranks, receiving tenure in 2011, promotion to professor in 2015, and named a Distinguished McKnight Professor in 2020. He previously served as the director of undergraduate studies in chemical engineering from 2018-2022, where he headed a large-scale revision of the chemical engineering curriculum and saw the department through its most recent ABET accreditation.
His research focuses on polymer physics and microfluidics, with applications in self-assembly and biotechnology. He is particularly well known for his integrated experimental and computational work on DNA confinement in nanochannels and its application towards genome mapping. Dorfman’s research has been recognized by numerous national awards including the AIChE Colburn Award, Packard Fellowship in Science and Engineering, NSF CAREER Award, and DARPA Young Faculty Award.
Dorfman received a bachelor’s degree in chemical engineering from Penn State and a master’s and Ph.D. in chemical engineering from MIT.
Department of Industrial and Systems Engineering
Professor Archis Ghate has been appointed as the new Department Head for the Department of Industrial and Systems Engineering after a national search. Ghate will begin his five-year term on July 8, 2024.
Ghate is an expert in operations research and most recently served as the Fluor Endowed Chair in the Department of Industrial Engineering at Clemson University. Previously, he was a professor of industrial and systems engineering at the University of Washington. He has won several research and teaching awards, including an NSF CAREER Award.
Ghate’s research in optimization spans areas as varied as health care, transportation and logistics, manufacturing, economics, and business analytics. He also served as a principal research scientist at Amazon working on supply chain optimization technologies.
Ghate received bachelor’s and master’s degrees, both in chemical engineering, from the Indian Institute of Technology. He also received a master’s degree in management science and engineering from Stanford University and a Ph.D. in industrial and operations engineering from the University of Michigan.
Department of Mechanical Engineering
Professor Chris Hogan has been appointed as the new department head for the Department of Mechanical Engineering. Hogan started his five-year term on July 1, 2024.
Hogan, who currently holds the Carl and Janet Kuhrmeyer Chair, joined the University of Minnesota in 2009, and since then has taught fluid mechanics and heat transfer to nearly 1,000 undergraduates, advised 25+ Ph.D. students and postdoctoral associates, and served as the department’s director of graduate studies from 2015-2020. He most recently served as associate department head.
He is a leading expert in particle science with applications including supersonic-to-hypersonic particle impacts with surfaces, condensation and coagulation, agricultural sprays, and virus aerosol sampling and control technologies. He has authored and co-authored more than 160 papers on these topics. He currently serves as the editor-in-chief of the Journal of Aerosol Science . Hogan received the University of Minnesota College of Science and Engineering’s George W. Taylor Award for Distinguished Research in 2023.
Hogan holds a bachelor’s degree Cornell University and a Ph.D. from Washington University in Saint Louis.
Rhonda Zurn, College of Science and Engineering, [email protected]
University Public Relations, [email protected]
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Presentation Topics for Mechanical Engineering
- by Ravi Bandakkanavar
- June 22, 2017
This post lists latest presentation topics for Mechanical engineering. These topics have been picked from wide areas of Mechanical Engineering like Robotics, Automobiles, Nano Technology etc.
- Adaptive Crusie Control Plus System
- Ablative Materials
- Abrasive Blast Cleaning
- Active Electrically Controlled Suspension
- Active roll-over protection system in Automobiles
- Adaptive control
- Advanced Battery and Fuel Cell Development for Electric Vehicle
- Advanced composites
- Advanced Cooling Systems
- Advanced Propulsion Methods
- Advanced Quadruped Robot – BigDog
- Advanced Rocket Motors
- Advances in Capillary Fluid Modelling
- AeroCapture
- Aerodonetics
- Aerospace Flywheel Development
- Air Augmented Rocket
- Air Casters
- Air Cushion Vehicles
- Air Powered Cars
- Air suspension system
- Scramjet Engine
- All Aluminium Alloy Conductors (AAAC)
- ArcJet Rocket
- Autocollimator
- Automatic Conveyor for Industrial Automation
- Automated Guided Vehicle System
- Adaptive control for 3-D overhead crane systems
- Electronic Fuel Injection (EFI)
- Magnetic Levitation Train
- Autonomous Submarines
- Ball Piston machines
- Bench top wind tunnels
- Bio-degradable polymers
- Biomass Fuelled Power Plant
- Twin-Turbo or Biturbo
- Blended Winged Aircraft
- Camless engine with electromechanical valve actuator
- Carbon Foam-Military Applications
- Cryogenic Treatment of Brake Rotors
- Car Speed Control by Blue Tooth
- Carbon nanotube cloths
- Carbon Nanotubes
- Collision warning system
- Compressed Air Cars
- Common Rail Direct Injection (CRDI) Engines
- Composite materials
- Compound Vortex Controlled Combustion
- Continuously Variable Transmission
- Conditional monitoring & fault Diagnosis
- Contactless energy transfer system
Suggested Read: Technical paper presentation topics for CSE Presentation Topics for Civil Engineering
- Corrosion resistant gear box
- Crew Exploration Vehicles
- Cruise Missile Technology
- Cryogenic Grinding
- Cushioning Impact in Pneumatic Cylinder
- Dark Room machining
- Digital manufacturing
- Double-wishbone suspension
- Advantages of tubeless tires
- Drive-By-Wire Systems
- Driver information system (DIS)
- Dual Clutch Transmission
- Dynamic Ride Control (DRC)
- Dynamic shift program (DSP)
- Eco-Friendly Surface Treatments
- Bomb Detection Robotics using Embedded Controller
- Traffic Light Control System
- Adaptive Cruise Control System
- Maglev Levitation Trains
- Vapor Absorption Cooling System
- Combustion Stability in I.C. Engines
- Electromagnetic Brakes
- Electric Power Assisted Steering
- Electromagnetic Valves
- Electrochemical Machining (ECM) & EBM
- Electromagnetic Bomb
- Electron beam machining
- Electronic Road Pricing System
- Energy Conversion and Management
- Energy efficient turbo systems
- Engineering Applications of Nylon 66
- F1 Track Design And Safety
- Full Authority Digital Engine Control
- Floating Power Stations
- Floating Solar Power Station
- Fluid Energy Milling
- Fly ash utilization
- Flywheel Batteries
- FMS (Flexible Manufacturing Systems)
- Fractal Robot
- Free Form Modelling Based on N-Sided Surfaces
- Frictionless Compressor Technology
- Fuel Cell Airplane
- Fuel cell powered Go-Karts
- Fuel Cells on Aerospace
- Fuel Energizer
- Fuels from Plastic Wastes
- Low-cost anti-lock braking and traction control
- Arial Photography Using Remote Flying Robot
- Electronic Vehicle Identification in the Intelligent City
- Hexapod Robots
- Robotic Surgery
- Hydrogen (water) Powered vehicle
- Carbon fiber reinforced plastic Composites
- Dynamic Car Parking Negotiation and Guidance Using an Agent-Based Platform
- Full Colour 3D Modelling Using Rapid Prototyping
- Functional Nanocrystalline Ceramics
- Fuzzy logic in Aircraft stability
- Geo-Thermal Energy
- Handheld Radiation detector
- HANS-In F1 Racing
- Harvesting Wave power
- Heavy duty Gasoline engines
- Difference between tubeless and with tube tires
- High Altitude Aeronautical Platforms
- High angle of attack aerodynamics
- High-Speed Precise Gear Boxes
- High-Speed Trains
- Highly Productive And Reconfigurable Manufacturing SystemHigh-Wire car
- Hovercrafts
- Tanker Robot For Vision Based Surveillance System
- Sensor Based Motion Control Of Mobile Car Robot
- Involuntary Train Collision Prevention System
- Hybrid Energy Systems
- Hybrid Motorcycles Hybrid Synergy Drive (HSD)
- Hydraulic railway recovery systems
- Hydrogen Car
- Hydrogen Generation via Wind Power Electrolysis
- Hy-Wire Car
- Infrared Curing And Convection Curing
- Infrared Thermography
- Intelligent Compact drives
- Inter-Continental Ballistic Missile (ICBM)
- Jelly Filled Telephone Cables
- Jet Powered Boat
- Jet Stream windmill
- Jetex Engine
- Kalina cycle
- Load Sensing Hydraulics
- Latest in hi-tech petrol fuel injection GDI (Gasoline Direct Injection)
- Latest Trends in Automotive Engg.& Technology
- Launching Space Vehicles from Moon
- Lean Burn Spark Ignition Engine
- Lean engineering
- Lightweight material-Carbon fiber
- Liquid Injection Thrust Vectoring (LITV)
- Logistics and supply chain management
- Low-Cost Spacecraft Simulator
- Magnetic Levitation
- Magnetic Nanocomposites
- Magnetic Refrigeration
- Marine electric propulsion
- Mass Rapid Transit system (MRTS)Mechanical torque limiters
- MEMS in Industrial Automation
- Mesotechnology
- Metal-Matrix Composite ProcessingMicro Batteries
- Micro Fluidic Chips
- Micro Gravity
- Micro Heat Exchangers
- Micro hydraulics
- MicroTopography
- Miller Cycle Gas Engine
- Modeling and simulation
- Modular conveyor belts
- Modular Gear motor
- Molten oxide electrolysis
- Multi Valve Engine
- Nano Fluids Thermal Applications
- Magneto Abrasive Flow Machining
- Multi Point Fuel Injection System
- Six Stroke Engine
- Nanobatteries
- Cell Phone Operated Robot
- Low-Cost Wind Power Plant
- Vacuum Brakes
- Vehicle Speed Sensing and Smoke Detecting System
- Fire Fighting Robot
- Nanomaterial-based Catalyst
- Nanorobotics
- Nono Fluidics
- Nuclear fuel reprocessing
- Nuclear Power Potential as Major Energy Source
- Ocean Thermal Energy
- Oil Shear Technology
- Oil well drilling
- Opto-Electronic Sensor System
- Orbit Forming
- Orbital WeldingOrbital/Space Mechanics
- Pendolino system for railway passenger comfort
- Perpetual Motion Machines
- Photonic Crystals
- Pint Sized Power Plants
- Plasma arc welding
- Plastic WeldingPolymers castings
- Porous Burner Technology
- Portable X-Ray Fluorescence Analyser
- Power from Space for use on EarthProcess Automation Techniques
- Pseudoelasticity and Shape Memory in Metal Nanowires
- Pulse Detonation Engine
- Pulsed Plasma Thruster
- Pump Noise level reduction methods
- Quantum Chromo Dynamics
- Random vibrations
- Rapid Injection Moulding
- Recent Trends in Quality Management
- Regenerative Fuel Cells
- Resistojet Rocket
- Responsive manufacturing
- Robot-driven cars ( Autonomous car )
- Robotic Assistants for Aircraft Inspectors
- Humanoid Robots
- Robots in Radioactive Environments
- Selective Catalytic Reduction (SCR)
- Self Healing Spacecraft
- Self-Healing Polymer Technology
- Semi-synthetic cutting fluids
- Sensotronic Braking System
- Single Crystal Turbine Aerofoil
- Solar Impulse – Solar Powered Flight
- Solar Powered Refrigerator
- Solid Liquid Separation Technology
- Space Elevator
- Space Robotics
- Space Shuttle
- Space Shuttle Boosters
- Space Station
- Spacecraft Propulsion
- Special materials for high-temperature applications
- Stealth Radar
- Synthetic polymers
- Stealth Technology
- Steer-By-Wire
- Stereoscopic Projection Systems
- Stirling engine
- Super Flat Nano Films
- Supercavitation
- Superconducting Rotating Machines
- Synthetic Aperture Radar
- Tension Control Brake
- Thermo Acoustic Refrigeration
- Thermoacoustic refrigerator
- Threadless Couplings
- Tire & wheel without pneumatics
- Tool Management System
- Touch trigger probes
- Trends in welding
- Turbines in silicon
- Ultra Nano Crystalline Diamond
- Underwater Welding
- Underwater windmill
- Vacuum Braking System
- Valvetronic Engine Technology
- Variable compression ratio engine
- Variable Length Intake Manifold (VLIM)
- Variable Valve Timing in Internal Combustion Engines
- Vertical Landing and takeoff engine
- Weld flaw detectors
- Welding Robots
- Wind-diesel System
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67 thoughts on “Presentation Topics for Mechanical Engineering”
Hello sir, I am Radhika Tiwari. I am doing diploma in mechanical engineering. I need a topic for my final year project model. Can you please provide me some trending topics to work on
Hello sir .. I am mahaveer Singh from mechanical engineering (b.tech) final year student .. I want a topic for a term paper presentation in my clg . Which I use in future for my project also… Suggest me topic plzz….
You can talk about flying taxi (air taxi). There is also Robot Dog.
Comments are closed.
Presentation Topics For Mechanical Engineering Students
Published by admin on december 13, 2018.
This is a comprehensive list of the best presentation topics for Mechanical Engineering students and researchers. These presentation topics can be used for PowerPoint (PPT), paper presentations, conferences, webinars, seminars, workshops and group discussions. These latest & general topics can be used by students of BE, ME, B Tech, M Tech & mechanical engineering diploma students.
Latest mechanical engineering presentation topics
Artificially Engineered Material Composites
Table of Contents
Artificial Intelligence in Mechanical Engineering
Atomistic Characterization of Dislocation Nucleation and Fracture
Automated Highways
3D Solar cells
Acoustic parking system (APS)
Driverless Cars
Active Electrically Controlled Suspension
Beyond Conventional Mechanical Engineering
Adaptive Light pattern
Advanced Battery and Fuel Cell Development for Electric Vehicles
Adaptive air suspension
Advanced Airbags for more protection
Recent trends in Mechanical Engineering
Recent trends in emission control techniques for engines
Reusable Launch Vehicles
Risks of Nano Engineered Particles
Water Powered Cars
Wireless factories
Alphabetical List of topics
3 Axis Digital Accelerometer
4 Stroke Engines
4-Wheel Independent Suspension
6 stroke engine
Ablative Materials
Abrasive Blast Cleaning
Abrasive Etching
Accelerometer
Acoustic finite elements
Active Control of Near-Wall Turbulent Flow
Active Decoy Systems
Active Front Lighting System
Active roll-over protection system in Automobiles
Adaptive compensation of DTV induced brake judder
Adaptive Cruise Control
Advanced Composite Materials
Advanced Cooling Systems
Advanced Energy Conversion Systems
Advanced Ferryboat Technologies
Advanced Fluid Transport Machinery
Advanced Materials in Automobiles
Advanced offset printing
Advanced Propulsion Methods
Advanced Rocket Motors
Advanced safety features in nuclear reactors
Advances in cutting tool technology
Advances in energy generation
Advances in Gas Turbine
Aerocapture (to reduce the velocity of a spacecraft Aerodonetics)
The aerodynamic design of the wind turbine
Aerodynamics
Aerospace Flywheel Development
Aerospace Propulsion
Aerospike engine
Aerothermal Engineering
Agile manufacturing
Air Augmented Rocket
Air Casters
Air Cushion Vehicles
Air Monitoring
Air pollution from marine shipping
Air Powered Car
Air suspension system
Airbus A380
Aircraft design
Aircraft Egress
Alternate fuels
Aircraft Maneuverability
Aircraft navigation System
Aircraft Propeller
Airport management
All wing Technology
Alternate refrigerants (Non-CFCs Refrigerators)
Alternative Fuel for Vehicles
Alternatives to the current Parking System
Aluminum Alloy Conductors
Alternate Sources of Energy
Analysis and Design Methods of Distributed Sensor
Anti-lock braking system (ABS System)
Antimatter bomb
Antimatter engine
Antimatter propulsion
Antimatter: Mirror of the Universe
Antiroll suspension system
Apache helicopters
Applied Mechanics
ArcJet Rocket (arc jet engine)
Aspheric lenses
Atkinson cycle engine
Automated guided vehicles (using GPS for automobiles)
Automated guided vehicles (without GPS for automobiles)
Automatic sprinkler system
Automatic transmissions
Automation in automobiles
Automation in building agricultural
Automation in building construction
Automobile Air Conditioning
Automobile design: Challenges
Automobile Engineering
Automotive Infotainment
Automotive Mechanics
Autonomous Submarines
Babbitt metal
Ball Piston machines
Ballistic Particle Manufacturing
Ballistic Missile Defense
Best Alternatives to Petrol & Diesel
Battery Electric Vehicle
Bearing Life Measurements
Benchtop wind tunnels
BigDog: The Most Advanced Quadruped Robot on Earth
Bio Mimetic Robots
Bio Robotics
Bio-degradable polymers
Bio-ethanol As Fuel
Biofiltration
Bio-fuels for automobile propulsion
Biological and synthetic materials
Biologically inspired robots
Biomass Fuelled Power Plant
Biomechanics
Biomechatronic Hand
Biomimetics
Bioplastic (100% Organic Plastic)
Bioreactors
Blasting cap
Blended Winged Aircraft
Biometrics: An Unparalleled Security Check System
Boosting Gas Turbine Energy Efficiency
Borewell Rescue Robots
Bose suspension system
Brake Assisting Systems
Brake booster
Breakthroughs in Engine Efficiency
Butterfly valvecatalytic converter
CAD/CAM software packages used in Mechanical Engineering
Camless Engines
Camless engine with the electromechanical valve actuator
Can a ship fly?
Carbon nanotube cloths
Carbon Nanotubes
Car Without Driver
Carbonfibre On F1 Cars
Cargo storage in space
Cell Integration Into A Manufacturing System
Ceramic fasteners
Ceramic-Like Coatings
Clearance of Space Debris
Closed cable-carrier chains for applications exposed to dirt or flying sparks
CNG (Compressed natural gas )
CNG Cars (CNG: Compresses Natural Gas)
Coastal Water Energy System using the Georotor device
Cold or Contact Welding
Collision warning system
Color Tinted Electropolished Surfaces
Combustion Research
Common Rail Direct Injection (Crdi) Engines
Composite materials for aerospace applications
Compound Vortex Controlled Combustion(44)
Compressed Air Energy Storage (CAES)
Compression Tube fittings
Computational fluid dynamics (CFD)
Computational fluid dynamics (CFD) In Weather Forecasting
Computer-Aided Designs (CAD)
Computer-Aided Geometric Design (CAGD)
Computer-Aided Manufacturing (CAM)
Computer-Aided Process Planning (CAPP)
Computer Graphics & Solid Modelling
Computer numerical control for Machine tools
Computer-aided engineering (CAE)
Concept Cars
Concurrent Engineering
Condenser Bushing
Conditional monitoring & fault Diagnosis
The contactless energy transfer system
Contaminant Removal from Soils by Electric Fields
Continuously Variable Transmission
Control of Point of Operation Hazards
Cooling and Lubrication of Engines
Cordless Tools
Corrosion-resistant gearbox
Corrugated Metals
Cruise Missile Technology
Cryogenic Ball Valves
Cryogenic Grinding
Crystalline Silicon Solar Cells
Cushioning Impact in Pneumatic Cylinder
CVCC (Compound Vortex Controlled Combustion)
CVT (Continuously variable transmission)
Cylinder Deactivation
Darkroom machining
Data Fusion for Quality Improvements
Design of an active car chassis frame incorporating magneto rheological fluid
Design, Analysis, Fabrication And Testing of A Composite Leaf Spring
Diamond Cutting Tool And Coatings
Diesel Mechanics
Diesel Particulate Filter
Diffusion Flame Shapes And Thin Filament Diagnostics
Diffusion Welding
Digital manufacturing
Dimple plate heat exchangers
Direct Hydrocarbons For Fuel Cells
Direct Manufacturing
Direct Methanol Fuel Cell
Direct Reduction Iron
DIS (Driver information system)
DNA-based nanomechanical devices
Double-wishbone suspension
Drag Racing
Drive-By-Wire Systems
Driverless Car
Dry ice blast cleaning in food processing industries
Dry Ice Blasting
DSG (Direct shift gearbox)
DTSi (Digital Twin Spark Ignition)
Dual Clutch Transmission
Ductless Induction Ventilation System
Durability in Design
Durable Prototyping
DurAtomic Process
Dynamic Ride Control (DRC)
Dynamic shift program (DSP)
Dynamics of Cutting Viscoelastic Materials
E85Amoeba Organization
Eco-Friendly Fuels
Eco-Friendly Gadgets
Eco-Friendly Home Appliances
Eco-Friendly Vehicles
Eco-Friendly Surface Treatments
Eco-Friendly Technologies
Eco-friendly Water Fuel in Mechanical Engineering
Economical E-Beams
Eddy Current Non-Destructive Testing
Elasto-Capillary Thinning and the Breakup of Complex Fluids
Elecro Hydraulic Sawmills
Electro Magnetic Flowmeters
Elecro magnetic Valves
Electric Automobiles
Electric Cars Concept
Electric Cylinders
Electric power steering units
Electric Rocket Engine
Electricity From Ocean Waves
Electrochemical Machining (ECM) & EBM~
Electrochemistry in material science
Electrokinetic pumping
Electrolytic Hydrogen: A Future Technology for Energy Storage
Electromagnetic Bomb
Electromagnetic Brakes
Electromagnetic Clutches
Electromagnetic Fields and Waves
Electron-beam Machining
Electronic Road Pricing System
Electronic Stability Control/program
Electrostatic precipitator
Embedded Computing in Mechanical Systems
Emerging Technologies in Mechanical Engineering
Emission Control Techniques
Energy Conversion and Management
Energy-efficient turbo systems
Energy-saving motors
Energy transformation
Energy-absorbing bumpers
Engineering Applications of Nylon 66
Engineering for Renewable Energy Systems
Engineering Mathematics
Enhanced Geothermal Systems (EGS
Escapement mechanism
Exhaust Gas Recirculation
Exoskeleton for human performance augmentation
Experimental Fluid Mechanics
Expert Technician System
Explosive Welding
Extra-Galactic Astronomy
F1 Track Design And Safety
FADEC – Full Authority Digital Engine Control
Failure mode evaluation and criticality analysis
Fast breeder reactor technology
FEA in Manufacturing
Finite Element Analysis
Finite element analysis (FEA)
Finite element method (FEM)
Fischer Trophs Process for manufacturing of synthetic fuels
Flapping wing aircrafts
Flexible Manufacturing Systems
Flexible shafts for power transmission
Floating Power Stations~
Floating Windmills
Fluid machinery mand measurement techniques
Fluid Mechanics and Machines
Fluidised Bed Combustion
Flyash Utilisation
Flying on Water
Flywheel Batteries
FMS (Flexible Manufacturing Systems)
Forge Welding
Formula 1 cars: Aerodynamics, Steering Wheel, Safety, Engines
Foundry and Production Technology
Fourth Generation of Biofuels
Fractal Robot
Free Electron Laser
Free Form Modelling Based on N-Sided Surfaces
Freeform Manufacturing
Friction Welding
Frictionless Compressor Technology
Fuel Cell Airplane
Fuel cell-powered Go-Karts
Fuel Cells On Aerospace
Fuel Energizer
Fuels from Plastic Wastes
Full Colour 3D Modelling Using Rapid Prototyping
Functional Nanocrystalline Ceramics
Fused Deposition Modelling
Fusible plug
Future Automobiles
Future Cars
Future of Automobiles
Future of Geothermal Energy
Future of Mechanical Engineering
Future of Portable Power
Fuzzy logic in Aircraft stability
Gaketted Plate Heat Exchnager
Gas Transfer Systems
Gaseous Pyrolysis
Generative Part Structural Analysis
Geo Thermal Energy
Geo-Thermal Energy(19)
Geothermal Power
Glass Making
Global Positioning System~
Globe valves
Green engine
Green Factory
Green fuels
Green Manufacturing
Guided Missile
Guided Missiles
Guyson ultrasonic cleaning machines
HalBach array
Handheld Radiation detector
HANS-In F1 Racing
Harvesting Wave power
Heat Engines and Steam Turbines
Heavy duty Gasoline engines
Helicopters
HHO Hydrogen Fuel Cell
High Altitude Aeronautical Platforms
High angle of attack aerodynamics
High Efficiency Heat Exchanger
High Speed Precise Gear Boxes
High speed Propellers
High speed Railway coaches
HIgh Speed Sliding Doors
High Speed Trains
High speed trains to existing rail routes
High Tides & Low Tides to produce energy
Highly Productive And Reconfigurable Manufacturing System(Hiparms)
High-Temperature Nuclear Reactors for Space Applications
High-volume aluminium pipe system for larger vacuum applications
High-Wire car
Homogeneous charge compression ignition engine
Hovercrafts
Human Artificial organs
Human Powered Vehicle Challenge (HPVC)
Humans and Energy
HVDC Transmission
Hybrid Bikes or Two Wheeler
Hybrid Cars
Hybrid Electric Vehicles
Hybrid energy Systems
Hybrid Synergy Drive
Hybrid vehicles
Hybrid Wind Electrolysis System
Hydraulic Elevators
Hydraulic railway recovery systems
Hydro Drive
Hydro Electricity
Hydro Jetting
Hydro statics
Hydro-Aerodynamic
Hydrodynamics and Heat transfer of Circulating Fluidised Beds
Hydroforming
Hydrogen (water) Powered vehicle
Hydrogen Car
Hydrogen Energy
Hydrogen Fuel Tank
Hydrogen Generation via Wind Power Electrolysis
Hydrogen Management in Refineries
Hydrogen Production using Nuclear Energy
Hydrogen Vehicle
Hydroplanning
Hypersonic Space Planes
HyperTech Engine
Hy-Wire Car
Ice Skating Rink System
Impact hammers
Improved efficiency of gas turbine
Improving aerodynamic performance of an aerospace vehicle
In Mould Lamination Technique
India and Mechanical Engineering
Industrial Cam Lift Hinges
Influence of an iron fuel additive on the performance and emissions of a DI diesel engine
Information Technology in Mechanical Engineering
Infrared Curing And Convection Curing
Injection Moulding
Injection Systems And Emission: Types
Inlet Conditions of An Air Compresor
Instrument Landing System
Intelligent cars
Intelligent Compact drives
Intelligent manufacturing
Intelligent Vehicles
Intelligent Vehicles and Automated Highways
Inter-Continental Ballistic Missile (ICBM)
Inverse Design of Thermal Systems
Ion Drive Engine
Iontophoresis
IT (Information Technology) in manufacturing
IT Application in Complex Syatem Analysis
IT in Mechanical Engineering
Italian Technological Marvels
Jelly Filled Telephone Cables
Jet Powered Boat
Jet Stream windmill
Jetex Engine
Jetropha based biodiesel
JIT (Just in Time)
Kalina cycle
Knowledge Based CAD for Technology Transfer
Laminated Object Manufacturing
Laod Sensing Hydraulics
Laser Material Deposition
Laser radar Guns
LASER Sintering
Laser-Based Remote Detection of Trace Explosives
Latest in hitech petrol fuel injection –GDI (Gasoline direct Injection)
Latest Suspension Systems
Latest Trends in Automotive Engg.& Technology
Lean Burn Spark Ignition Engine
Lean Burn Technology
Lean engineering
Lean to Steer Concept
Lenoir cycle
Light weight material-Carbon fibre
Lightweight Cars: Pros & Cons
Liquid Engineering
Liquid Hydrogen as an Aviation Fuel
Liquid Injection Thrust Vectoring (LITV)
LNG (Liquefied natural gas )
Logistics and supply chain management
Long Term Mine Reconnaissance System
Low Cost Spacecraft Simulator
Low emission gas turbine
Low Gloss ABS system
Low inertia dics clutches
LPG (Liquefied petroleum gas )
LPG as a Fuel (Liquefied Petroleum Gas)
LPG Vs CNG : Truth about Safety Issues
Machine tools vibration, Noise & condition monitoring
Machine vision
Macromolecular Hydrodynamics
Magnetic Bearing
Magnetic Launching
Magnetic Levitation
Magnetic Nanocoposites
Magnetic refrigeration
Magnetic Resonance Imaging
Magnetically driven micro-annular gear pump for metering applications
Magnetorheological Fluids
Magnox Nuclear Reactor
Maintenance Welding
Manufacturing Engineering
Manufacturing Processes
Manumatic transmissions
Marine electric propulsion
Mass airflow sensor
Mass customization: A strategic approach
Mass Rapid Transit System (MRTS)
Material science including Nano-science
Materials used in Space Re-entry Vehicles
Mechanical Behavior of Filament-Wound Pipes
Mechanical Parking System
Mechanical Testing
Mechanical torque limiters
Mechanosynthesis
Mechatronics
MEMS (Micro Electro Mechanical Systems) – a pollution free option for power generation
MEMS Packaging
Mesotechnology
Metal Nanoshells
Metallurgy & Quality Control
Metal-Matrix Composite Processing
Metamorphic Robots
MHD Submarine
Micro- and Nano-Mechanics of Surface Contact Plasticity
Micro Batteries
Micro Electro Mechanical Systems
Micro Fluidic Chips
Micro Gravity
Micro Heat Exchangers
Micro hydraulics
Micro Moulding
Micro Pumps
Micro scale regenerative Heat Exchanger
Micro Turbine
Microair Nozzles For Precision
Microbial Fuel Cells
Microengines for microprocessors
Micro-Epsilon laser profile scanner to inspect weld seams on steel pipes
Microfluidics
Microlithography
Micromachines
Micromanipulating Micromachines
Micromixers
Microprocessor Based IC Engines
Microprocessor based power theft identification
Microscale Breaking Waves And Air-Sea Gas Transfer
Micro-Scale Milling
Microtechnology
MicroTopography
Mileage Improvement Techniques
Miller Cycle Gas Engine
Modeling and simulation
Models Of Random Damage
Modern Air Pollution Control Technologies
Modern Centrifugal Compressors
Modern Manufacturing Processes
Modern Refrigeration Systems: Solar, Thermionic, Vortex Tube
Modified four stroke engine
Modular Cam Locks
Modular conveyor Belts
Modular Gear motor
Modular Workstations
Molecular Engineering
Molecular hinges
Molecular Manufacturing
Molecular nanotechnology
Molten oxide electrolysis
Monobloc pressure jet burner
Mordern Prototyping Methods
Motors Without Mechanical Transmissions
Moulds in Casting of Plastics and Thermoforming
Multi Valve Engine
MultiJack Bolt Tensioners
Multiple material milling platform
MV/HV water spary systems
Nano Electro Mechanical Systems(NEMS)
Nano in navy
Nano Robotic Manipulation System
Nano Robotics
Nano- Robotics and Bio- Robotics
Nano Spreader Cooling
Nanobatteries
Nanocrystalline Thin-Film Si Solar Cells
Nanomaterial
Nanomaterial Based Catalyst
Nanorobotics
Nanoscale Armor
Nanoscale Fractals
Nanotechnology
Nanotechnology & Mechanical Engineering
Nanoventions Micro-optic Modeling
Natural Gas Vehicles (NGV’s)
Negative Pressure Supercharging
New Age Tyres
New Finite Element Analysis for Unsteady 3D Natural Convection
New Level of Nano Precision
New rolling technique for texturing
New Rolling Techniques
New trends in Automobile Design
Night Vision
Non Conventional Methods of Machining
Non Destructive Evaluation Techniques
Non-conventional Energy Sources
Non-Destructive Testing
Nono Fluidics
Nuclear fuel reprocessing
Nuclear Power Potential as Major Energy Source
Nuclear Waste Management
Ocean Thermal Energy
Oil Depletion in the World
Oil Shear brakes
Oil well drilling
Optical trapping and manipulation of small particles
Optimisation of Mechanical Systems
Opto-Electronic Sensor System
Orbit Forming
Orbital Welding
Orbital/Space Mechanics
Organic Plastics
Over-the-wing Engine mount configration
Parallel kinematic machines: Exechon technology
Particle Reinforced Aluminium Matrix Composites
Pasteurization
PDM : Product data management
Pendolina system for railway passenger comfort
Performance Analysis of Manufacturing Systems
Perpetual Motion Machines
Personal Transporters
Photomechanics
Photonic Crystals
Piezoelectric Actuators
Pint Sized Power Plants
Piston less dual chamber rocket fuel pump
Pistonless rocket Engine
Planetary Sciences
Plasma Arc welding
Plasma Science
Plastic recycling
Plastic Welding
PLM: Product lifecycle management
Plug-In-Hybrid Cars
Pneumatic forming
Pneumatics Control Systems
PNG (Piped Natural Gas)
Polymer Nanocomposites
Polymers castings
Porous Burner Technology
Portable biomass stove
Portable Power
Portable X-Ray Fluorescence Analyser
Power frequency magnetic fields
Power From Space For Use On Earth
Power System Contingencies
Powered Industrial Trucks
Practical Fuel-Cell Vehicles
Precision Engineering and practice
Precision manufacturing and Inspection
Prediction of Creep Failure using FEA
Predictive Engineering
Pressure Sensitive Paint
Probabilistic design of mechanical components
Process Automation Techniques
Process Modeling And Simulation
Programmable keyless entry
Progressive Cavity Pump
Propulsion Subsystems
Protection of Communication systems from Solar Flares
Pulsed Plasma Thruster
Pump Noise level reduction methods
Quality Function Deployment
Quantum Chromodynamics
Quantum Mechanics / Quantum Physics
Quick-release terminals for testing or calibration
Radar Guns and Laser radar Guns
Random vibrations
Rapid Design for Lean Manufacturing
Rapid Injection Moulding
Rapid Re-Usable Tooling
Reaction Engineering
Recent Advances in Statistical Quality Control
Recent trends in engine development
Recent trends in manufacturing
Recent Trends in Quality Management
Reduction Technology
Re-Entry of Space Vehicle
Refined IC Engines
Refrigerant circuit with electronic expansion valve metering device
Refrigeration and Air Conditioning
Regenerative brake
Regenerative Fuel Cells
Relativistic quantum field theory (RQFT).
Reliability and risk analysis
Renewable Energy Systems
Renewable Fuel Standard (RFS)
Renewable sugarcane jet fuel
Research Aircrafts
Research and Materials of Armor Design
Resistojet Rocket
Responsive manufacturing
Reverse Engineering
Reverse Engineering in India
Reverse Engineering Worldwide
Rigid Body Dynamics
Ring Gear Maintenance
Risk Analysis of Running Steam Turbines Above Rated Speeds
Robot driven cars
Robotic Assistants For Aircraft Inspectors
Robotic Pioneering
Robotic roller coasters
Robotic Vision
Robotics & AI
Robotics & Automation
Robotics & Industrial Automation
Robotics for Home Applications
Robotics For Millitary Applications
Robots In Radioactive Environments
Rock Mechanics
Rocket Booster Systems
Rocket Powered Aircraft
Roller Pumps
Rotating Parallel Grippers
Rotating Scroll Power Compressor
Rubber Products by Calendaring
Safety And Environment
Safety aspects in nuclear reactor
Safety features of railway rolling stock
Scramjet engine
Screw Fastenings
Scuderi Split Cycle Engine
Seal-less pumps for glue-containing particulates
Secure User Authentication Using Automated Biometrics
Sediment Transport at Hydraulic Jumps
Selective Catalytic Reduction (SCR)
Selective Plating
Self Aware Robots
Self Extinguishing PVC’s
Self Healing Space crafts
Self Monitoring Pneumatic systems
Self Repairing Composites
Self Secured Joints
Self-Assembly For Nano And Micro Manufacturing
Semi automatic transmission
Semi solid Casting
Semi-synthetic cutting fluids
Sensotronic Brake Control System
Sensotronic Braking System
Shape Memory Alloys
Shock Response Spectrum
Simple Constitutive Models for Linear and Branched Polymers
Single Crystal Turbine Aerofoil
Six stroke engines
Sixth sense technology
Skid Steer Loader And Multiterrain Loader
Small Satellites
Smart aerospace structures
Smart Ammunitions
Smart Autoreeling mechanism
Smart Bombs
Smart combustors
Smart Material
Smart material actuators
Smart Materials
Smart Pnuematics
Snake robots
Snaps to Replace Screws
Soft lithography
Solar Cells and Solar Cell Modules
Solar Energy
Solar Energy: Rapidly Evolving Technologies
Solar gadgets
Solar Heat Energy Storage in Phase Change Materials
Solar Ponds
Solar Power Satellite
Solar power Tower
Solar Powered Refrigerator
Solid Base Curing
Solid carbide end mills
Solid –Liquid Separation Technology(73)
Space Craft Propulsion
Space Engineering
Space Robotics
Space Shuttle
Space Shuttle Boosters
Space Shuttle Semisolid Casting
Space Shuttles And Its Advancements
Space stations
Spark Sintering
Special materials for high temperature applications
Special materials for ultra-low temperature applications
Sports Plane
Stealth Radar
Stealth Technology
Steam Sparging
Steer- By -Wire
Stereolithography
Stereoscopic Projection Systems
stratified charge engine
Stress-strain curve & Structural failure
SunGas: Renewable Thermochemical Fuels
Super Air Nozzles
Super Charging
Super Flat Nano Films
Supercase Hardening process
Supercavitation
Superconducting Rotating Machines
Surface Engineering
Sustainable Energy
Sustainable Engineering
Symmetrical All Wheel Drive
Synthetic Aperature Radar
System Identification and Adaptive Control
Systems for Manufacturing Quality Improvement
Systems Modeling and Simulation
Technology-Based Entrepreneurship
Telescopic Lip Dock Levellers
Temperature Resistant Alloys
Tension Control Brake
Test Ranges / Facilities/Readiness
Testing of Welds
The Atomic Battery
The Engineering Research Role in Environmental Noise Control
The Hy-Wire Car
The Truth about Water Powered Cars
Theory of Machines
Thermal Barrier Coatings
Thermal Biomass
Thermal Energy Storage
Thermal Engineering
Thermal Platic Composities
Thermic Turbo Machinery
Thermo Acoustic Refrigeration
Thermo Fluid Mechanics
Thermo Hygrometer
Thermoacoustic refrigerator
Thermodynamics
Thermostatic Refrigerator
Therrmophoresis
Thin Flexible Solar Cells
Thin Vacuum Conveyors
Threadless Couplings
Tidal technology
Tip Tronic Gear transmission
Tire & wheel without pneumatics
Tool Management System
Tool Management System(32)
Topographic Characterization and Modeling of the Precision Surface
Topology Optimization
Total Productive Maintenance
Touch trigger probes
Traction control
Transfer Machines
Transonic aircraft
Trenchless Technology
Trends in welding
Triptronic Automatic Gear Transmission
Tube Hydroforming
Tubeless Tyre
Turbofan Engines
Turbomachines
Two Stage Fuel Injection System
Types of Cars
Types of Engines
Types of Fuels
Tyre ReTreading
Tyre Threading
Ultra Nano Crystallline Diamond
Ultrasonic dispersal of nanomaterials for paints and coatings
Ultrasonic NDE and Characterization of Aerospace Materials
Ultrasonics and Acousto-Optics for the Nondestructive Testing of Complex Materials
Underwater Cars
Underwater Welding
Underwater wind mill
Unmanned Mine Spotter
Use of GPS in automobiles
Use of Mobile Devices in Mechanical Engineering
Use of piezoelectric wafer active sensors for damage identification in aging aircraft structures
Use of space energy for human welfare
Use of Space Technology for Human Welfare
Vacuum Heat Treatment of Materials
Vacuum Work holding
Valvetronic Engine Technology
VANOS (Variable Nockenwellen Steuerung)
Vapor Recovery Systems
Variable compression ratio engine
Variable Flow Pumping
Variable Speed Drives
Variable timing Valve Trains (VTVT)
Variable Valve Timing In I.C. Engines
Vector Calculus
Vertical Axis Wind Turbines
Vertical Landing and takeoff engine
Vertical takeoff and landing aircrafts
Vibration control Techniques
Vibration Tester
vibration-testing technology
Vibro-acoustic modal analysis
Virtual Prototyping
Virtual Reality Visualisation
Viscoelastic behavior of engineering materials
Vision Systems for Safe Driving
Visualization and Computer-Aided Design
Water Fueled Cars
Water jet cutting technology
Water Rocket
Wave Springs
Weapon Engineering / Design
Weber carburetors
Weld flaw detectors
Welding Robots
Wind diesel System
Wind Energy
Wind engineering
Wind From The Sun-Power Plant
Wind turbine with doubly-fed induction generator
Wind-Powered Barbeque Technology
Wireless Energy Transmission
Work Zone Safety
Written-Pole Technology
Zero-Energy Homes
This is all about the best and latest Presentation Topics For Mechanical Engineering Students for power-point as well as Google slides presentations.
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Mechanical engineering articles from across Nature Portfolio. Mechanical engineering is the branch of engineering that deals with moving machines and their components. A central principle of ...
Explore the latest full-text research PDFs, articles, conference papers, preprints and more on MECHANICAL ENGINEERING. Find methods information, sources, references or conduct a literature review ...
Top 150 Mechanical Engineering Research Topics [Updated] General / By Stat Analytica / 10th February 2024. Mechanical engineering is an intriguing discipline that holds significant sway in shaping our world. With a focus on crafting inventive machinery and fostering sustainable energy initiatives, mechanical engineers stand as pioneers in ...
High-quality research papers from thought-leaders in all areas of specialization within mechanical engineering are made available through ASME Journals. ... Joining ASME is the most important connection a current or future Mechanical Engineer can make. Save up to 50% on courses, books, journals, conferences, and more
Dissertation Topics in Mechanical Engineering Design and Systems Optimization. Topic 1: Mini powdered metal design and fabrication for mini development of waste aluminium Cannes and fabrication. Topic 2: Interaction between the Fluid, Acoustic, and vibrations. Topic 3: Combustion and Energy Systems.
The registered company address is: Gewerbestrasse 11, 6330 Cham, Switzerland. Preface. Currently, it is possible to de fine mechanical engineering, as the branch of. engineering that "which ...
Top 50 Emerging Research Ideas in Mechanical Engineering. Additive Manufacturing and 3D Printing: Exploring novel materials, processes, and applications for 3D printing in manufacturing, aerospace, healthcare, etc. Advanced Composite Materials: Developing lightweight, durable, and high-strength composite materials for various engineering ...
The International Journal of Mechanical Sciences (IJMS) is an international forum for the publication and dissemination of original work which contributes to greater scientific understanding of the main disciplines underpinning the mechanical, civil and material engineering sciences.. Original contributions providing insight into the use of analytical, computational (e.g. FEM, BEM, mesh-free ...
Finding Research Papers and Journal Articles in Mechanical Engineering This is a more complete listing of research databases for finding research papers and journal articles. It includes both restricted access subscription databases that are only available to current Illinois Tech students, faculty, and staff as well as some of the best and ...
The load-bearing capacity of a building is influenced by the strength of the concrete. However, when faced with complex environments, ordinary concrete is not always adequate. The strength of concrete can be enhanced by incorporating additives into it. At this point, the study of adding basalt fiber (BF) and nano-SiO2 (NS) to concrete is pretty advanced. Still, research on the incorporation of ...
Introduction to MNNs and how they learn mechanical behaviors. ( A) ANNs mathematically map numerical inputs to outputs by tuning scalar weights within layers of neurons consisting of activation functions. ( B) MNNs are mechanical analogs to ANNs in that they map force and displacement inputs and outputs using tunable beams, which are analogous ...
The purpose of the study was to determine the effects of static and dynamic stretching protocols within general and activity specific warm-ups. Nine male and ten female subjects were tested under four warm-up conditions including a 1)... more. View Mechanical Engineering Research Papers on Academia.edu for free.
such as dies and moulds. Parts of aerospace, automotive industry and surgical components can be finished by EDM. This paper reviews the research trends in EDM on ultrasonic vibration, dry EDM machining, EDM with powder additives, EDM in water and modeling technique in predicting EDM performances.
paper finally ends with a listing of recommendations to address the diverse issues identified, in addition to a statement of the further prospects for this research. Keywords: adequacy, job-training, mechanical engineering, skills, education continuous improvement 1. Introduction
Depth Camera-Based 3D Hand Gesture Controls with Immersive Tactile Feedback for Natural Mid-Air Gesture Interactions. 2015 / Kwangtaek Kim, Joongrock Kim, Jaesung Choi, Junghyun Kim, Sangyoun Lee. 1. Mechanical engineering - list of research paper topics on CyberLeninka sci-hub.
20 Mechanical Engineering Research Topics. The mechanical engineering background role in the study of robotics. The role of structural analysis in mechanical engineering. Improvement in manufacturing via implementation of new mechanical theories. A parabolic solar cooker: design and performance evaluation.
This research paper indicates that the mechanical properties are mainly dependent on the fiber orientation of laminated polymer composites. View full-text. Article.
They are joined on the paper by Matin Ghavami and Alexander Lew, MIT graduate students; Cameron Freer, a research scientist; Ulrich Schaechtle and Zane Shelby of Digital Garage; Martin Rinard, an MIT professor in the Department of Electrical Engineering and Computer Science and member of the Computer Science and Artificial Intelligence ...
Are You Searching Research Topics For Mechanical Engineering, Topics For Mechanical Engineering Research Paper, Mechanical Engineering Research Topics For Students, Research Topics Ideas For Mechanical Engineering, Mechanical Engineering Research Topics For Phd, Mechanical Engineering Phd Topics. So You are at right place. At this website you can get lots of Mechanical Engineering Research ...
Organoids and organs-on-chips aim to improve drug testing and disease modelling, but each has limitations. This Review discusses the integration of these systems to improve cellular hierarchy ...
In order to solve the problem of flexible sliding tactile composite sensing in the actual grasp of intelligent robot fingers, this paper proposes a research on a convex fiber grating tactile sliding sensor based on mechanical fingers. Based on the sensing principle of fiber Bragg grating, 3D printing technology was used to encapsulate the FBG sensor array with elastic 50 A resin, a double ...
Continue reading this blog to get exclusive ideas for engineering research paper writing. Engineering Research Paper Topic Selection Tips. When it comes to research in the field of engineering, identifying the best engineering research topic is the first step. So, during that process, in order to identify the right topic, consider the following ...
The increasing global population and wealth have increased the demand for fiber production, with 113 million tons of global fiber produced in 2021 and 149 million tons projected by 2030 if business continues as usual (1-3).The rising demand for textiles and shorter life span compared to a generation ago due to fast fashion result in a substantial accumulation of waste, estimated to be 92 ...
Mechanical Engineering Research Papers/Topics . Simulation of deformation behaviour of Aluminium 7075 during Equal Channel Angular Pressing (ECAP) Abstract This paper presents a finite element simulation of equal channel angular pressing (ECAP) since it is one of the most common and successful severe plastic deformation techniques. This study ...
Mechanical Engineering Research Projects Gokongwei College of Engineering Mechanical Engineering Internally funded Projects SY2012-2013 to AY2016-2017 Project Title/Number ... Replacement paper: Fumigation of Jatropha press cake producer gas in a diesel genset: Performance and emission characteristics 07 F U 1TAY11-1TAY12
Professor James Kakalios of the School of Physics and Astronomy was one of four new department heads named by CSE Dean Andrew Alleyne. These new department heads bring a wealth of academic, research, and leadership abilities to their departments. School of Physics and AstronomyProfessor James Kakalios has been appointed as the new department head for the School of Physics and Astronomy ...
June 22, 2017. This post lists latest presentation topics for Mechanical engineering. These topics have been picked from wide areas of Mechanical Engineering like Robotics, Automobiles, Nano Technology etc. Adaptive Crusie Control Plus System. Ablative Materials.
Alphabetical List of topics. Artificial Intelligence in Mechanical Engineering. Atomistic Characterization of Dislocation Nucleation and Fracture. Automated Highways. 3D Solar cells. Acoustic parking system (APS) Driverless Cars. Active Electrically Controlled Suspension.
Words: 988. Pages: 2. This essay sample was donated by a student to help the academic community. Papers provided by EduBirdie writers usually outdo students' samples. Cite this essay. Download. The career I chose to research was mechanical engineering one of the many fields that engineers can choose from.