research projects for mechanical engineering

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.

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Mechanical Engineering Projects

Get mechanical projects topics and ideas for study and research. NevonProjects provides the widest list of mechanical engineering projects topics to help students, researchers and engineers in their research and development. Also we have a great variety of pre made mechanical project kits using hydraulics, gears, energy generation systems for you to use in your projects. Our kits help enthusiasts, students and researchers build test new mechanical systems in no time. Our researchers constantly research on new topics and ideas to help students in their research on mechanical system designs.

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Mechanical engineering is the branch of engineering that deals with moving machines and their components. A central principle of mechanical engineering is the control of energy: transferring it from one form to another to suit a specific demand. Car engines, for example, convert chemical energy into kinetic energy.

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research projects for mechanical engineering

Nature-inspired interfacial engineering for energy harvesting

Nature evolves intricate surfaces/interfaces to achieve high energy efficiency, providing a promising, low-carbon solution to energy crisis. This Review explores diverse energy processes in nature and how to translate nature’s inspiration to efficiently harvest energy from water, sunlight, heat and their hybrids, especially through interfacial engineering.

Baoping Zhang
Wanghuai Xu
Zuankai Wang

Button shear testing for adhesion measurements of 2D materials

2D materials are being investigated for several applications in micro- and nanoelectronics, but their weak adhesion represents a critical challenge for device integration. Here, the authors propose a button shear testing method to evaluate the adhesion forces of various large-area 2D films on SiO 2 and Si 3 N 4 substrates.

Josef Schätz
Max C. Lemme

Vibration reduction of human body biodynamic response in sitting posture under vibration environment by seat backrest support

Leizhi Wang

Fast Human Motion reconstruction from sparse inertial measurement units considering the human shape

Inertial Measurement Units-based motion capture effective application in large scale and complex environments depends on improved efficiency and reduced latency. Here, authors propose a full body motion estimation deep neural network based on 6 IMUs, which runs at 65 fps with 15 ms latency on an embedded computer.

Jianjian Wang
Jianfu Zhang

Prospective cold metal working and analysis of deformation susceptibility of CuMg alloys with high magnesium content

Paweł Strzępek
Małgorzata Zasadzińska

Using shock generator for the fuel mixing of the extruded single 4-lobe nozzle at supersonic combustion chamber

As’ad Alizadeh
Dheyaa J. Jasim
Abbas J. Sultan

News and Comment

Micro- and nanorobots for biofilm eradication

Micro- and nanorobots present a promising approach for navigating within the body and eliminating biofilm infections. Their motion can be remotely controlled by external fields and tracked by clinical imaging. They can mechanically disrupt the biofilm matrix and kill the dormant bacterial cells synergistically, thereby improving the effectiveness of biofilm eradication.

Staffan Kjelleberg

Mechanism of plastic deformation in metal monochalcogenides

Metal monochalcogenides — a class of van der Waals layered semiconductors — can exhibit ultrahigh plasticity. Investigation of the deformation mechanism reveals that on mechanical loading, these materials undergo local phase transitions that, coupled with the concurrent generation of a microcrack network, give rise to the ultrahigh plasticity.

Adaptable navigation of magnetic microrobots

An article in Nature Machine Intelligence presents an adaptable method to control magnetic microrobots’ navigation using reinforcement learning.

Charlotte Allard

Soft sensing and haptics for medical procedures

Minimally invasive surgery (MIS) lacks sufficient haptic feedback to the surgeon due to the length and flexibility of surgical tools. This haptic disconnect is exacerbated in robotic-MIS, which utilizes tele-operation to control surgical tools. Tactile sensation in MIS and robotic-MIS can be restored in a safe and conformable manner through soft sensors and soft haptic feedback devices.

Arincheyan Gerald
Sheila Russo

Propelling the widespread adoption of large-scale 3D printing

3D printing can be used to automate the manufacturing of building elements for large-scale structures such as skyscrapers, aircraft, rockets and space bases without human intervention. However, challenges in materials, processes, printers and software control must first be overcome for large-scale 3D printing to be adopted for widespread applications.

Wouter De Corte
Viktor Mechtcherine

Exploration of truss metamaterials with graph based generative modeling

Optimisation tasks in the inverse design of metamaterials with machine learning were limited due to the representations of generative models. Here the author comments a recent publication in Nature Communications which generates a latent space representation that unlocks non-linear optimisations.

Angkur Jyoti Dipanka Shaikeea

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Students present mechanical engineering projects that have global impact

Graduate students, postdocs, and undergraduate UROP students presented their research to members of the MIT community, alumni, and industry representatives at the sixth annual Mechanical Engineering Research Exhibition.

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One event has become a hallmark of nearly every academic conference: the poster session. Posters summarizing research are tacked onto endless rows of bulletin boards. Leaders in any given field meander through the posters, asking presenters questions about their work on the spot. For junior researchers participating in poster sessions for the first time, the events can be daunting.

The Graduate Association of Mechanical Engineers (GAME) and MIT’s Department of Mechanical Engineering are working to remove the intimidation factor that surrounds poster sessions and presentations. For the sixth year in a row, they have organized the Mechanical Engineering Research Exhibition (MERE), which was held on Oct. 11 in MIT’s student center. Over 60 graduate students, postdocs, and Undergraduate Research Opportunity Program (UROP) students presented their research projects to nearly 200 attendees in a poster session-style event. The event was organized by graduate students Crystal Owens and Maytee Chantharayukhonthorn.

“Providing students with a venue to practice presenting has been instrumental in boosting their confidence,” says Evelyn Wang, Gail E. Kendall Professor and department head in mechanical engineering. “Whether students pursue a career in academia, industry, or government, the ability to clearly communicate about their work will always be a crucial skill.”

Nicholas Fang, professor of mechanical engineering and GAME faculty advisor, has seen these skills of technical communication improve in students who participate in MERE year-to-year. He also sees the event as a great introduction to MIT for first-year graduate students and undergrads who are considering graduate study at MIT.

“Participation by first-year students is very important to this event,” he explains. “New students can’t take a seat in every single lab to learn about each other’s work, so MERE gives them the best opportunity to get to know the research in the department as a whole.”

Mechanical engineering research across MIT is incredibly diverse and touches upon a wide swath of disciplines, but one common theme united the research presented at MERE — every project offered solutions and insights that could one day have tangible impact on a global scale.

Solutions in human health

Two examples of projects that could impact human health took different approaches to improving our understanding of brain cancer. Cynthia Hajal is using microfluidic chips to grow blood vessels that mimic the human brain. A PhD candidate working with Roger Kamm, Cecil and Ida Green Distinguished Professor of Biological and Mechanical Engineering, Hajal is using microfluidics to learn more about how cancer metastasizes in the brain.

“The idea is to rebuild human organs outside of the body to track and test different diseases,” explains Hajal. To track and test brain cancer, Hajal and her team place cells taken from a human brain into microfluidic channels that are pumped with nutrients and serum. About seven days later, the cells self-assemble into brain capillaries. The research team then places tumor cells into the channels and tracks their progression over time.

“Our process helps us image metastasis in short intervals of time so we can really slow down and find out what exactly is happening at every stage of the process,” Hajal adds.

Ali Daher, meanwhile, uses mathematical modelling in the hopes of one day helping doctors determine the best course of treatment for glioblastoma multiforme brain tumors. “When a doctor is in the process of coming up with a treatment plan for the patient, they are faced with many challenges,” says Daher, a senior studying mechanical engineering.

To help inform a doctor’s treatment plan, Daher is utilizing mathematical models to predict how a tumor might react to treatment plans. Using a reduced-order scheme developed for fluid systems by Pierre Lermusiaux, professor of mechanical engineering, Daher worked on an algorithm that could help doctors determine what therapies would be most effective.

Improving access to food and water

In addition to human health, another pervasive theme at MERE this year was how humans interact with the environment. Two projects in particular honed in on how we can improve access to food and water, especially in developing countries.

Sonal Thengane, a postdoc working with Ahmed Ghoniem, the Ronald C. Crane (1972) Professor, is developing fertilizers made of carbon-rich biochar to improve soil quality and crop yield. Biochar is made by torrefying (drying with fire) waste from farms or forests. “When it is mixed into the soil, the biochar is very porous and retains the moisture and nutrients for a longer time,” says Thengane.

Thengane’s work has already been tested on a farm in Kenya and will soon be tested in the United States and India with support from the Abdul Latif Jameel World Water and Food Security Lab (J-WAFS). He and his team have also explored the possibility of repurposing the debris from forest fires and logging residues, and using it in biochar-based soil. “We are also working in California, which has had so many forest fires recently,” he explains. “California has many farms that could benefit from this soil.”

While Thengane is working on improving crop yield and increasing access to safer food, Hannah Varner is hoping to improve access to fresh water in India. A graduate student in MIT’s GEAR Lab, Varner is in the process of building a prototype system that desalinates brackish water in India.

“Groundwater holds a lot of potential for solving the water crisis in places like India and the southwestern United States,” says Varner, who works with Associate Professor Amos Winter. The problem with groundwater is it often is brackish — containing too much salt to be potable. Utilizing modeling and an understanding of fluid dynamics and electrochemical processes, Varner was able to design a system for point-of-use desalination of brackish water in India.

“The really exciting thing is I was able to design a system and then bring it to Bangalore this summer,” she says.

Award winners

Throughout MERE, participants like Varner spoke with judges who assessed their presentation skills. Awards were given to the following students:

First-place presentations: Erin Looney for “Accelerating Cleantech Hardware System Development;” John San Soucie for “Gaussian dirichlet Random Fields For Inference Over High Dimensional Categorical Observations;” Nick Selby for “Teachbot : An Education System For Workforce;” and Meghan Huber for “Visual Perception Of Stiffness From Multijoint Motion”

Best first-time presenter: Kuangye Lu for “Remote Epitaxy Of Gaas On Cvd Graphene For Wafer Re Usability And Flexible Electronics”

Best UROP: Helen Read for “Fracture Toughness Of Polyacrylamide Hydrogels”

Second-place runners-up include: Chinmay Kulkarni, Cynthia Hajal, Jongwoo Lee, Francesco Sigorato and Matteo Alberghini, Kiarash Gordiz, Nisha Chandramoorthy, Noam Buckman, Emily Rogers, and Sydney Sroka.

The following presenters were given honorable mentions: James Hermus, Yeongin Kim, ZhiYi Liang, Lauren Chai, Sanghoon Bae, Antoine Blanchard, Rabab Haider, Scott Tan, and Jaewoo Shim.

Making your own luck

After the conclusion of the exhibition, Helen Greiner '89, SM '90 delivered a keynote speech. An innovator in the field of robotics, Greiner traced her career path in front of an audience filled with mechanical engineering students. Inspired by the Star Wars character R2D2, Greiner took an early interest in robotics. In 1990, she co-founded iRobot.

After a decade of trial and error, iRobot found success with products such as the Roomba and PackBot. While the Roomba has cemented its place in popular culture, thanks in large part to a Pepsi advertisement featuring Dave Chappelle, the PackBot has made a huge impact on how military operations are executed.

“These robots were credited with saving the lives of hundreds of soldiers and thousands of civilians,” Greiner recalls.

Greiner encouraged students to “make their own luck.” With luck and determination, the students and postdocs who presented earlier in the day could someday see their products, designs, and theories have the kind of impact Greiner’s robot innovations have had.

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Showcasing solutions for land, sea, space — and everywhere in between

Pierre Lermusiaux (left), professor of mechanical engineering and ocean science and engineering, will serve as MechE's associate department head for operations. Rohit Karnik (right), associate professor of mechanical engineering, will serve as MechE's associate department head for education.

Department of Mechanical Engineering announces new leadership team

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Sealing Wounds with Tape

MIT engineers led by Associate Professor Xuanhe Zhao have designed a double-sided tape that can seal tissues in just five seconds. The tape could eventually replace surgical sutures, which don’t work well in all tissues and can cause complications in some patients.

Smart irrigation technology covers “more crop per drop”

Working directly with end users, the GEAR Lab team has created several drip irrigation technology solutions, including a low-cost, solar-powered precision irrigation controller that optimizes energy use and water use.

Finger-shaped sensor enables more dexterous robots

Graduate student Alan (Jialiang) Zhao develop a long, curved touch, finger shaped sensor that could enable a robot to grasp and manipulate objects in multiple ways.

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Stanford’s Department of Mechanical Engineering (ME) works in four major research areas: computational engineering, design, sustainability, and human health. Our research philosophy is simple: Push the limits of the possible — the ultra-efficient and most sustainable, the fully autonomous and super-controlled, the bioinspired and maximally enduring.

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Important multidisciplinary, project-based learning opportunities within Mechanical Engineering’s three research themes employ a range of methodologies — design thinking, multiscale modeling, physics-based simulation, control systems, and artificial intelligence — to the study of the nanoscale to complex living and mechanical systems. See where you fit in.

Two ME Faculty receive National Science Foundation CAREER Award

The grants support early-career faculty who have the potential to serve as academic role models in research and education and to lead advances in the mission of their department or organization.

"Catie Cuan used to be a professional dancer. But now that she’s getting a Ph.D. in mechanical engineering from Stanford, she’s dancing with a new partner: robots. She’s designing robots to move in a way that’s less threatening for humans in an emerging field called choreorobotics."

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Mechanical engineering research projects, academics in brunel’s mechanical engineering department are involved in many high-profile national and international research projects that further our understanding.

Below are some of our Mechanical engineering projects that are ongoing or have been completed.

Total number of results: 110

Enhancing bioplastic injection moulding with ultrasonic power

Joint Industrial Data Exchange Platform (JIDEP)

Professor Harjit Singh and colleagues at a DeSHI workshop in India

Decentralised Solar Hydrogen for rural India (DeSHI)

Dental drill noise reduction device

Energy and waste reduction in Foundation Industries

Developing new AM-CFC multi-materials for optimised designs

Low cost solar powered food cold storage and distribution

Optimising energy management in industry

Low temperature waste heat to power generation

Industrial Thermal Energy Recovery Conversion and Management

Vehicle lightweighting

Interactive real-time infrastructure for smart and zero energy building analysis

Research Opportunities - Mechanical Engineering - Purdue University

GET IN THE GAME! Undergraduate Research at Purdue ME

How does it work?

1. Review this list of available projects:

Fall 2024 Purdue ME Research Project List (PDF)

2. Determine how you would like to participate:

Participate for class credit; enroll in the appropriate course (ME 297, ME 498, or ME 499); tuition fee applies OR
Participate for pay (if available) OR
Participate on a voluntary basis (if available)

3. Complete the Fall 2024 Research Application . Please note: you will need to upload a resume, so it's best to complete this application on a computer instead of a mobile device.

Complete the application here! Deadline is Friday, March 8!

4. Please note: the window for applying for research in Summer 2024 is April 16-28.

4. Apply for an undergraduate research scholarship ! Free money could be yours if you apply!

Frequently Asked Questions

When should I apply? Now! The application is open until Friday March 8 .
Who can apply? All Purdue ME students can apply.
Must I use my purdue.edu email to apply? Yes
How many projects can I apply for? Up to 3
Can I accept more than one project offer? No
Is the acceptance of a research project offer binding? Yes! If you accept an offer, you are expected to honor your commitment to your research project team.
When will project offers be made to students? Offers will be made starting March 18.
What’s the deadline to accept or decline a project offer? Students can accept or decline offers from March 18-31.
When will the actual research happen? Fall 2024 semester, August 19 - December 7, 2024
Where can I find information about enrolling for credit? Instructions for how to register are below.

How to Research with a Mechanical Engineering Faculty Member for Credit (ME 49800/49900)

ME 49800 and 49900 are variable title courses that allow students to partner with a ME faculty member to engage in research for credit. Students should consider a topic or area of interest in which they would like to participate in research. Students may complete up to nine credit hours of research to apply towards degree requirements.

ME 49800 is for students doing research for the first time for credit with a faculty member. ME 49800 can be used to meet ME elective requirements.

ME 49900 is for students in junior or senior level curriculum and are doing research for the second time for credit with a faculty member. ME 49900 can be used to meet ME elective requirements.

Students are responsible for approaching faculty to discuss research opportunities. A listing of faculty who conduct research in specific areas can be found here. Students should email the faculty member from a Purdue email account to request a meeting to discuss opportunities for research. During the meeting, the student and faculty should discuss the type of research/project, time commitment, expectations, etc.

The student is required to consult their academic advisor to determine how the credit will be applied towards their degree. Students should be prepared with an updated plan-of-study that incorporates the research course. To properly register for the research course, the student should complete the steps outlined below.

Process Summary for students completing research for credit (must be completed by the second Friday of the semester):

Contact faculty member via email to request a meeting to discuss research opportunities
Complete the Undergraduate Research Expectations document with the instructor. It is important to complete this document so that you understand the commitment, expectations, and how you will ultimately be graded for your work. Information provided on this document will be required for registration purposes.
Meet with your academic advisor to discuss how research will be applied toward your degree. Be sure to bring your updated POS with research, and the completed Undergraduate Research Expectations document .
Complete the course registration for ME 49800/49900 via the Scheduling Assistant in MyPurdue. Click here for a video on how to request a variable title course . (Do not include ME 49800/49900 on your course request form in the pre -registration phase; it will be denied because variable title courses can only be requested during open registration using the process in the video link above.)

ME Research Registration Information for Non-ME Majors

All registration for ME faculty directed research is to be completed via a variable title registration. Student will request the variable title course via the Scheduling Assistant which will require authorization of the instructor and students academic advisor.

Students should register for the ME course number below based upon the following factors –

Students in freshman or sophomore level curriculum register for ME 29700
Students in junior or senior level curriculum register for ME 49800
Students in junior or senior level curriculum who are completing research with the same faculty member in a subsequent semester register for ME 49900.

Other Opportunities

Summer undergraduate research fellowship (surf).

The SURF program is helping students across engineering, science, and technology disciplines discover a world of opportunity available to them through research. By closely working with other creative and innovative people, students explore, discover, and transform ideas into reality to advance society and improve people's lives. SURF matches undergraduates with a faculty member and graduate student mentor who introduce them to the research tools used on the cutting edges of science, engineering, and technology. More information for SURF can be found here: https://engineering.purdue.edu/Engr/Research/SURF.

Discovery Park Undergraduate Research Internship (DURI)

The Discovery Park Undergraduate Research Internship (DURI) program is designed to involve Purdue undergraduates in the interdisciplinary research environment of Discovery Park. The program provides opportunities for students to work with faculty affiliated with Discovery Park on cutting edge research projects that involve combining two or more disciplinary strengths. Working closely with faculty, students experience the excitement, challenge, and power of truly interdisciplinary research in the fast-paced, entrepreneurial environment that is Purdue's Discovery Park. DURI offers 50 part-time (6-10 hours/week) student internship slots per academic semester. More information for DURI can be found here: https://www.purdue.edu/discoverypark/duri

Vertically Integrated Projects (VIP)

The Vertically Integrate Projects Program gives undergraduate students the opportunity to earn academic credit while engaging in authentic and extended research and design projects with interdisciplinary and vertically-integrated teams. More information for VIP can be found here: https://engineering.purdue.edu/VIP.

Research Scholarships

The bottomley research scholarships.

The Bottomley Research Scholarships were created to encourage undergraduate mechanical engineering students to participate in research projects, and ultimately pursue graduate education opportunities. The Bottomley Research Scholarship provides a $1,000 tuition-based scholarship for the undergraduate student and $500 for the faculty member to use to fund part of the research. There are typically 15 or more Bottomley Research Scholarships each year.

The H. William Bottomley Global and Research Scholar Program in MechanicalEngineering is named to honor the late H. William Bottomley, a 1943 graduate of theSchool of Mechanical Engineering. Supported through a planned gift by Jim and Marilynn Dammon, the Bottomley Scholar Program seeks to providedeserving undergraduate students in the School of Mechanical Engineering the opportunity to study one-on-one with a professor or provide assistance for opportunities for study abroad.

Eligibility: To be eligible for the Bottomley Research Scholarships you must:

Be a Mechanical Engineering Undergrad student of good standing
Maintain a cumulative GPA of 3.5 or higher
You must have a ME faculty research mentor working on the research with you
Submit an application consisting of:
Your Resume
An Updated Plan of study with research credit added
A 100 word research description

Further Requirements: The recipients of the Bottomley Scholarships will also be required to present their research at the Bottomley Poster Session at the end of the Spring semester.

APPLY HERE BY JANUARY 5, 2024

Questions? Contact Janeen Redman: [email protected]

The Robert H. and Barbara J. Popejoy Undergraduate Scholarship and Incentive Award for Independent Study Related to Positive Displacement Compressors

The Robert H. and Barbara J. Popejoy Undergraduate Scholarship and Incentive Award was created to encourage undergraduate Mechanical Engineering students to take on speech research projects specifically relating to Positive Displacement Compressors. This scholarship awards the student $1,000 to be used for tuition and an additional $1,000 to be used to help fund the research project.

Eligibility : To be eligible for he Robert H. and Barbara J. Popejoy Undergraduate Scholarship and Incentive Award you must:

The Ralph T. Simon Memorial Scholarship in Mechanical Engineering

The Ralph T. Simon Memorial Scholarship in Mechanical Engineering was created to encourage students to partake in undergraduate research opportunities. This scholarship focuses specifically on projects that address environmentally sensitive areas. All students are eligible to apply, but preference is given to sophomore students and student can continue to receive this scholarship as long as they remain eligible and working on this project.

Eligibility: To be eligible for The Ralph T. Simon Memorial Scholarship in Mechanical Engineering you must:

Active in non-academic activities (such as fine arts, athletics, or community service through student organizations or other community outreach efforts)
3.0 GPA or higher
Must be completing a project that addresses an environmentally sensitive area

Undergraduate Office (ME Building Room 2172) 585 Purdue Mall West Lafayette, IN 47907 Phone: (765) 494-5689 Fax: (765) 494-0051 Email: [email protected]

Bachelor of Science in Mechanical Engineering (BSME) - Research and Independent Projects

Undergraduate research and projects offer unique educational opportunities and all undergraduates are encouraged to participate. All BSME students are required to have at least one full-semester project experience through the ME43 Senior Design Project.

ME 94 - Undergraduate Research

Students who wish to engage in additional undergraduate research or independent projects enroll in ME94: Undergraduate Research (3 credits). With the supervision of a faculty member and often in collaboration with others, students focus on a topic of scientific or practical interest. Undergraduate projects often require students to perform laboratory experimentation and/or numerical simulations, giving them an opportunity to gain practical experience and be exposed to graduate level engineering education. The Department will not grant course credit for ME94 unless the following requirements are fulfilled:

An undergraduate with junior or senior standing can take one semester of Undergraduate Research (ME 94) for credit as an ME Concentration Elective.
All ME 94 research projects must have a ME faculty advisor who is responsible for project assessment and grading. The student and advisor must meet at least every two weeks, but are encouraged to meet weekly.
All students intending to enroll in ME 94 need to submit a one-page proposal (form available here ) within one week of the start of the semester. If the proposal is not submitted by the deadline, the student will not be given permission to enroll in the course. The proposal must be signed by the advisor and Department Chair. A scan of the form will be placed in the student's electronic file.
The ME 94 grading process will include an end-of-term poster presentation that will be evaluated by all faculty who participate. These evaluations should be in the form of a single "presentation" score. It is suggested that presentations account for 20% of the overall grade.

ME 96 - Thesis

Students who want to pursue an independent project for more than a single semester are expected to do so by writing an undergraduate thesis (ME 96, 3 credits) in the second semester of their independent project.

Given the scope of work and time commitment necessary for thesis preparation, a senior may take one semester of ME96-Thesis as a concentration elective after the successful completion of a semester-length research and/or design effort. Prior research/design effort may be: ME94-Undergraduate Research, ME43-Senior Design Project, or concentrated summer research work with a faculty mentor in the ME Department.
A student is required to have a thesis committee as well as a faculty advisor for a Senior Thesis. The student and advisor must meet at least every two weeks, but are encouraged to meet weekly.
All students enrolled in ME96 must submit a one-page proposal within one week of the start of the semester. If the proposal is not submitted by the deadline, the student will not be given permission to enroll in the course. The proposal form is available here . The proposal must be signed by the advisor and Department Chair. A scan of the form will be saved in the student's file.
Each student registered for ME96 will present his/her thesis during the reading period. The presentation will last 30 minutes (20 minute presentation and 10 minute Q&A).
The grade for the thesis will be awarded by the faculty advisor in consultation with the thesis committee and other faculty members attending the presentation.
The Department may award thesis honors (honors, high honors, highest honors) in which case an Honors Thesis Form must also be completed, signed, and returned to the program administrator in Dowling Hall. A scan of these forms will be placed in the student's electronic file.

Hard problems. Huge impact.

With incomparable facilities, a great location and long-standing relationships with industry, we’re uniquely positioned to do research that can’t be done anywhere else. Our faculty and students go after mechanical engineering’s toughest challenges, and what they find influences science and changes lives.

Research Centers

We solve problems no one else can..

Michigan Mechanical Engineering is home to four fully-funded, world-class centers.

Automotive Research Center Driving new performance and operation technologies for ground vehicles.

NSF Engineering Research Center for Reconfigurable Manufacturing Systems Developing innovative systems to build high-quality, high-performance products

GM/U-M Institute of Automotive Research and Education Developing next-generation, high-efficiency cars and trucks.

SM Wu Research Center Pioneering advances in manufacturing processes.

Current Research Areas

Automotive & Future Transportation

Biomechanics & Biosystems Engineering

Dynamics & Vibrations

Manufacturing

Mechanics & Materials

Mechatronics & Robotics

Micro/Nano Engineering

Multi-scale Computation

Thermal Sciences

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Mechanical Engineering

Research and Projects

Student projects, stirling engine fan (click on title for poster).

ME95 "Product Realization," is an interdisciplinary, sophomore course in the Mechanical Engineering undergraduate program that provides an introduction to the product development process, including design, fabrication, assembly and testing. Different techniques are compared for their costs and limitations. The course includes a multi-team project that involves fabrication of components for assembly into a complex, functioning system.

Two sections of one- and two-person teams work together to fabricate parts and assemble two functioning Stirling Engine Fans from a variety of ferrous and nonferrous materials and different joining methods using mills, lathes, drills, press brakes and other manufacturing equipment.

Zero-Gravity NASA Project (click on title for poster)

An experiment container was designed, analyzed, fabricated and used for conducting a chemical experiment (calcium oxalate production) under reduced gravity conditions aboard a NASA-operated aircraft. The container was constructed of a welded and gusseted aluminum square-tubing frame and walled with polycarbonate panels that were lined in silicone and bolted to remain in-place while reinforced with square u-shaped side-wall supports. For evaluation purposes, separate design loads resulting from 9-g's forward, 3-g's aft, 6-g's down, 2-g's lateral, and 2-g's up were imposed on the container. Analytical, numerical (FEA) and experimental methods were used to validate the structural integrity of the experiment container.

Freshman Design (Up Up and Away)(click on title for poster)

ME01 "Introduction to Engineering," is an interdisciplinary, freshman design course that included a multi-team project that used energy in a moving airstream to lift a mass a vertical distance of 2 feet. Fifty-four, four-person teams from five pre-engineering programs (College of Sequoias, Fresno City College, Reedley College, West Hills Community College, and Willow International) and one four-year engineering program (Fresno State) competed in the 15th annual Central California Engineering Design Competition (CCEDC) in Fall 2011. The winning device scored the greatest performance index of P=mass (g)/(time in s to lift two feet) of 137.2 g/s.

Unmanned Aerial Vehicle (click on title for poster)

Laser targeting systems implemented on Unmanned Aerial Vehicles (UAV) such as the TASE Gimbal depend on the accuracy of instruments such as accelerometers, gyroscopes, pressure sensors, and Global Positioning System (GPS) to determine accurately the position and distance to target. These instruments almost always required vibration isolation. When measuring and determining position to target, a highly stable surface must be maintained upon which to mount the targeting system. Any vibrations coupled into the mechanical structure of the TASE Gimbal will result in displacement and position noise and ultimately in the inability of the instrument to accurately determine the position of the target. Therefore, it is essential to design and implement a vibrations isolation system that will allow for proper operation of such instruments.

BULLDOG RACING: Formula SAE (click on title for poster)

Formula SAE® is a student design competition organized by SAE International (formerly Society of Automotive Engineers). The first competition was started back in 1978 and was originally called the Mini Indy. The concept behind Formula SAE is that a fictional manufacturing company has contracted a design team to develop a small Formula-style racecar. The prototype race car is to be evaluated for its potential as a production item. The target marketing group for the race car is the non-professional weekend autocross racer. Each student team designs, builds and tests a prototype based on a series of rules whose purpose is both to ensure on-site event operations and promote clever problem solving. Formula SAE promotes careers and excellence in engineering as it encompasses all aspects of the automotive industry including research, design, manufacturing, testing, developing, marketing, management and finances. Formula SAE takes students out of the classroom and allows them to apply textbook theories to real world experiences.

Human Powered Vehicle (click on title for poster)

For the 2011 competition, the Fresno State Human-Powered Vehicle Team set out to improve upon past entries in the speed bike class. From 2005 to 2007, there has been a gap in passing down knowledge to the next club. However, by actively pursuing continual improvement since 2008, the hard work and determination has paid off, as the club used the design work and reports from 2008 to 2010 as a basis for the development of the vehicle for 2011. In recent years, the fully-faired speed bicycles the team has ridden have had respectable performance, so these designs were used as a starting point for the 2011 design. At its core, the speed bike was designed as a recumbent bicycle encased in a full fairing. The use of a recumbent, fully-faired design minimizes the air resistance (drag) while also allowing for the rider to sufficiently power and control the bicycle. Fresno State retained the use of carbon fiber as the material for the fairing, as well as carbon kevlar, as its strength to weight ratio is a noticeable improvement over other currently available materials. The changes in the steering and drive train represent the majority of changes in this year's design for Fresno State. As such, Computational Flow Dynamics were performed with COSMOS FloWorks on potential designs in

Faculty Research Projects

UAV (unmanned aerial Vehicle)

Unmanned aerial vehicle (UAV) is an aircraft without a human pilot on board. Its flight is either controlled autonomously by computers in the vehicle, or under the remote control of a navigator, or pilot on the ground or in another vehicle. Although there are a wide variety of drone shapes, sizes, configurations, and characteristics, historically, UAVs were simple remotely piloted aircraft, but autonomous control is increasingly being employed. Although UAVs are predominantly deployed for military applications, they are also being used in a small but growing number of civil applications, such as firefighting and nonmilitary security work, such as surveillance of pipelines. UAVs are often preferred for missions that are too 'dull, dirty, or dangerous' for manned aircraft. At Fresno State, the initial design of UAV utilized an R/C model airplane controlled by an R/C operator with direct line-of-site. Some initial goals involved flying overhead and "painting" a target with a laser. Target coordinates were pre-programmed and static with targets approximately 1-2 meters wide. The operator had a forward-looking view camera. Flight times were approximately 15-30 minutes in length with range to target of 100-1000 feet. The UAV also incorporated surveillance cameras. Dr. Gemunu Happawana is part of a multi-disciplinary team working on UAVs. Contact Dr. Happawana for more information: [email protected] or 559.278.6832.

Vertical Axis Wind Turbine

Vertical-axis wind turbines (VAWTs) are a type of wind turbine where the main rotor shaft is set vertically and the main components are located at the base of the turbine. In addition to not having to point VAWTs into the wind, other advantages of this arrangement are that generators and gearboxes can be placed close to the ground, which makes these components easier to service and repair, and that VAWTs do not need to be pointed into the wind. However, some drawbacks for the VAWT designs are that the pulsatory torque can be produced during each revolution with resulting huge bending moments on the blades and near resonant vibratory oscillations in the components and structure. Dr. Gemunu Happawana is part of a multi-disciplinary team working on VAWTs. Contact Dr. Happawana for more information: [email protected] or 559.278.6832.

Ceramic Composites in Nuclear Applications

The US Department of Energy (US DOE) is currently exploring replacing conventional zirconium-alloy fuel rod tubes in light water reactors (LWR) with fuel rods consisting partly or entirely of ceramic matrix composites (CMC) thereby benefiting LWRs by enhancing fuel performance and accident tolerance. In addition, US DOE is also exploring advanced materials for the core and the reactor unit components in various advanced Small Modular Reactor (SMR) concepts. In both cases, the CMCs of particular interest include silicon carbide (SiC) continuous fiber SiC-matrix (SiC/SiC) composites, that are anticipated to revolutionarily expand the design window for various components in terms of operating temperature, applicable stress, and service life, as compared to the heat-resistant metallic alloys, while significantly improving the safety margins and the accident tolerance. Use of new CMC materials in LWR and SMR applications require mechanical test standards to support of not only material development and property databases, but design codes and component specification documents, as well as Nuclear Regulatory Commission regulations on nuclear design approval, certification, and licensing. Dr. Michael Jenkins conducts research that results in the development, verification and introduction of standards and design codes for CMCs in nuclear applications. Contact Dr. Jenkins for more information: [email protected] or 559.278.8743.

Smart/Active Materials

Smart/Active materials have recently been emerging as a new trend in mechanical designs, especially for advanced or intelligent systems. The applications range from consumer products, medical devices to military equipment. Dr. The Nguyen is currently researching and designing with these interesting materials. He is utilizing smart materials to enhance the strength of mechanical engineering designs, mechatronics applications and control systems. Contact Dr. Nguyen for more information: [email protected] or 559.278.1675

Last Updated Jul 31, 2022

The Summer Cohort Regular Application Deadline I is April 14, 2024.

Click here to apply.

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25+ Research Ideas in Mechanical Engineering for High School Students

Mechanical engineering is a multifaceted discipline that combines physics, mathematics, and material science to design, analyze, and manufacture mechanical systems. If you’re a high schooler with an analytical mindset and a passion for problem-solving, this is one of those STEM fields that you may already be interested in. Now while you could of course get into the nitty-gritties of mechanical systems or building your own projects, you could also consider pursuing research in mechanical engineering! Not only is research materially and financially easier, but it is also at least as intellectually challenging if not more so, and is a great way to build your mastery of mechanical theory and its applications.

In this blog, we present 25+ research ideas across the various disciplines within mechanical engineering that you could consider exploring.

How should you go about pursuing research in engineering as a high schooler?

Remember, research is supposed to be a systematic inquiry into a chosen topic , so the first and most important item on the checklist is to select a relevant and manageable topic.

Ideally, your research should address a current challenge or gap in the engineering field, aiming for innovation while having the necessary resources and tools available . While this may sound challenging, you can still choose to, instead pursue existing research avenues to enhance your own knowledge and contribute your observations and deductions to the larger engineering community.

After you have identified a promising research area, plan your methodology, consider ethical implications, and decide how to present your findings .

Topic 1: Robotics and Automation

Robotics is one of the most exciting products of the information age and is at the forefront of technological advancements, transforming industries from healthcare to manufacturing. I t encompasses machine design, control, and human-machine interaction , all inextricably linked with the concepts of mechanics and motion and how best to control them.

Good to have before you start:

Familiarity with programming and working knowledge of at least one common programming language (C / C++ / Python).

An understanding of kinematics and the principles of motion.

Some potential topics:

1. Collaborative Robots: Explore the design and safety aspects of robots designed to work alongside humans.

2. Drone Technology: Research the mechanics, applications, and fallout of unmanned aerial vehicles and how to improve their design and usage.

3. Automation in Manufacturing: Study the impact and efficiency of robotics in modern manufacturing processes, and the evolution of their design.

4. AI-driven Robotics: Delve into robots powered by artificial intelligence and their applications. This one is a little tricky and advanced but is an excellent learning opportunity if you are able to grasp the intricacies of AI and machine learning. If you find a mentor for this, all the better!

Ideas contributed by Lumiere Mentors from the University of Michigan, Brown University, and University College London.

Topic 2: Thermal and Fluid Systems

This research area focuses on the behavior of fluids and the transfer of heat, two interlinked domains relying on convection and the motion of atoms. T hese are important concepts for applications ranging from HVAC systems to vehicle aerodynamics.

A grasp of thermodynamics, fluid dynamics, and heat transfer principles.

Access to a lab would be helpful for you to experiment and test the concepts involved.

5. Efficient Cooling Mechanisms: Research innovative methods to cool machinery and electronics, either via revolutionary design or by clever use of material properties.

6. Fluid Flow Simulations: Explore computational methods to predict fluid behavior. This is a fairly beginner-friendly topic with plenty of learning opportunities and low barriers to entry.

7. Renewable Energy and Thermodynamics: Investigate the role of heat transfer in sustainable energy solutions, and its efficiency, design, and limits. Renewable energy is one of the most important topics of our time, and there’s plenty of work yet to be done in this field.

8. Microfluidics in Medical Devices: Delve into the applications of fluid behavior at the microscale in healthcare.

Ideas contributed by Lumiere Mentors from the University of Cambridge, Stanford University, and MIT.

Topic 3: Materials and Manufacturing

The essence of this topic lies in understanding and researching the properties of different materials and how their hardness, strength, elasticity, etc. can be manipulated in manufacturing processes to create better products.

Some knowledge of, or interest in, material sciences and manufacturing processes

Convenient access to a materials laboratory - a lot of the subjects in this field require experimentation and practical observation.

Experience with tool-working or a mentor to supervise.

Safety gear! You will likely be doing a lot of materials analysis and abrasion and corrosion testing, all of which require safety gear.

9. 3D Printing Innovations: Explore advancements in additive manufacturing and their implications, researching what makes a good material for 3D printing and the details of the process.

10. Smart Materials in Everyday Products: Research materials that respond to external stimuli and their commercial applications. This is crucial research for the design and manufacturing of such vital things as semiconductors and transistors.

11. Sustainable Manufacturing: Place yourself at the leading edge of sustainability research and investigate eco-friendly production methods and materials.

12. Nanomaterials and Their Properties: Delve into the world of materials at the nanoscale and their unique characteristics. While similar in approach and application to #10 , this focuses instead on material properties at the quantum levels and how that impacts their usage in manufacturing.

Ideas contributed by Lumiere Mentors from Cornell University and the University of Cambridge.

Topic 4: Biomechanics

Biomechanics merges biology and mechanics, aiming to understand the mechanical aspects of living organisms, from human movement to cellular behavior. This is an interesting intersection of fields hosting cutting-edge research on the potential of the human body and ways to repair or even enhance it.

Some knowledge of, or interest in, both biology and the principles of mechanics.

Some mentorship - this is a somewhat advanced topic that requires an understanding of advanced concepts from two distinct fields. A mentor will be able to guide you and point you to important resources.

13. Prosthetic Design and Biomechanics: Research the mechanics behind prosthetic devices, user-friendly designs, and materials that combine flexibility, lightness, and strength.

14. Sports Biomechanics: Investigate the mechanics of various sports movements and their optimization. As Olympic sports performance levels climb ever higher, this is a future-oriented field of research if you’re keen on exploring the limits of the human body.

15. Cellular Mechanics and Health: Explore how cells respond to mechanical forces and the implications for health.

16. Wearable Devices for Movement Analysis: Study the technology behind wearables that monitor and analyze human movement, exploring efficient alternative materials and design.

Ideas contributed by Lumiere Mentors from John Hopkins University, UC Berkeley, and Harvard.

Topic 5: Automotive Engineering

This topic delves into the design, manufacturing, and operation of vehicles, from cars to trucks, focusing on performance, safety, and efficiency. From Tesla to Toyota, and Mack to Caterpillar, the field of automotives has never been as buzzing and active as it is today.

Some knowledge of, or interest in, vehicle dynamics and systems.

Convenient access to both a mechanical laboratory and a vehicle - this is a highly practical field that requires plenty of experimentation and hands-on work.

Mentorship - once more, practical guidance will go a long way with these topics, and drastically reduce the likelihood of you ending up with a broken-down vehicle!

A driving license - you might need to test out some vehicular modifications, in which case a license becomes mandatory.

17. Electric Vehicle Innovations: Research the latest advancements in EV technology and design. This also involves some aspects of material sciences and electronics engineering.

18. Aerodynamics of High-Speed Vehicles: Explore how vehicle design influences performance at high speeds. If you’re an F1 enthusiast, this will be right up your alley.

19. Safety Mechanisms in Modern Cars: Investigate the technology behind safety features like autonomous braking and lane-keeping assist.

20. Future of Autonomous Vehicles: Delve into the mechanics and challenges of self-driving cars. Being a purely theoretical topic for most people, this makes it the most beginner-friendly topic in this section while being good for developing your knowledge of the field.

Topic 6: Renewable Energy Systems

With the global push towards sustainability, this area focuses on more efficient methods of harnessing energy from renewable sources like wind, sun, and water. With the escalating environmental crises, this field is crucial in steering the world towards a sustainable future. While this subject can potentially overlap with, say, chemical, material, or electronics engineering, the focus here is on researching, understanding, and exploring the mechanics of existing renewable energy systems and ways of improving them or even designing entirely new ones.

Understanding of energy conversion principles, interest in sustainable technologies, and some experience with electrical systems.

Access to some renewable energy systems - while many of these projects can be explored purely from a theoretical lens, it would benefit you greatly if you have access to an actual solar panel farm or a wind turbine.

21. Solar Energy Harvesting: Explore the mechanics and efficiency of solar panels and energy storage.

22. Wind Turbine Design and Optimization: Research the aerodynamics and mechanics of wind turbines.

23. Hydroelectric Power Innovations: Investigate advancements in harnessing energy from water sources.

24. Thermal Energy Storage Solutions: Study methods, materials, and designs to efficiently store heat energy for later use.

Ideas contributed by a Lumiere Mentor from Harvard, the University of Exeter, and Imperial College London.

Topic 7: Dynamics and Control Systems

This field studies the motion of objects and the forces acting on them, alongside designing systems to control these dynamics. This has some overlap with both automation and automotive fields, but here the focus is on the forces affecting the dynamics of and control of mechanical systems , and how to mitigate and optimize that feedback.

A foundation in physics, understanding of mathematical modeling, and familiarity with basic control theory.

Convenient access to a systems laboratory - you will benefit greatly if you’re able to physically work on the listed topics.

Some mentorship - again, the topics in this field require physical experimentation and hands-on analysis, while also often being theoretically dense. Your learning will be greatly enhanced if you find a mentor.

25. Vibration Analysis in Machinery: Delve into the causes and mitigation of vibrations in industrial equipment.

26. Stability Analysis of Mechanical Systems: Research factors influencing the stability of structures and machinery.

27. Feedback Control in Automated Systems: Explore the design and implications of feedback loops in control systems.

28. Dynamic Behavior of Drones: Investigate the forces and controls influencing drone flight.

Ideas contributed by a Lumiere Mentor from the University of Michigan.

If any of these ideas spark your interest, or if you have something of your own, then get to it! A good research project will work wonders in enhancing your college application(s) in STEM fields . Admissions officers respect quality research projects done with a clear, measurable objective in mind - if you can explain concisely what you researched, why you did it, and what is the impact and provide clear metrics wherever possible, then you can be confident your research and your application will stand out from the pile.

Pursue independent research with the Lumiere Research Scholar Program

If you’re looking for the opportunity to do in-depth research on the above topics and more under the guidance of a mentor, you could also consider applying to one of the Lumiere Research Scholar Programs , selective online high school programs for students I founded with researchers at Harvard and Oxford. Last year, we had over 4000 students apply for 500 spots in the program! You can find the application form here.

Stephen is one of the founders of Lumiere and a Harvard College graduate. He founded Lumiere as a PhD student at Harvard Business School. Lumiere is a selective research program where students work 1-1 with a research mentor to develop an independent research paper.

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Research Projects

Contact the Mechanical Engineering Department

Learn about nau’s department of mechanical engineering research abstracts.

Our faculty engage in a broad range of collaborative research projects with our academic, government, and industry partners.

Mechanical Engineering

Mailing address.

Undergraduate programs

Research opportunities

The Materials Science and Engineering department has numerous research opportunities available to Carnegie Mellon and non-Carnegie Mellon undergraduate students. Many students carry out research for credit (27-555 or 27-556) or extracurricular research with individual professors; students are encouraged to contact professors directly for such opportunities. Moreover, several larger programs are housed within the department, for which additional information can be found below.

Undergraduate research in the College of Engineering

Undergraduate research

MSE students are encouraged to get involved in undergraduate research projects in a variety of formats that allow for hands-on, collaborative learning opportunities.

Capstone course

All MSE undergrads engage in research through the Capstone course where student teams join forces with industry partners to solve real world engineering problems. Read more about are most recent projects and partnerships:

Students work on capstone project in lab

Surface Preparation for Adhesive Bonding to Aluminum Alloy AlSi10Mg Additive Manufacturing This project tests different surface treatment methods for additively manufactured aluminum. The goal is to find the shop-floor surface treatment method that produces the best adhesive bond using 3M's EC2216 Epoxy. Following ASTM D-1002 standards for the lap shear tests, the group tested five surface treatment methods: Isopropyl Alcohol, Water-break-free, Sol-gel, FPL etching, and Phosphoric Acid Anodizing.

Characterization the Effects of Solution Treatment on Additively Manufactured AlSi10Mg Alloy This project explores the effect of lowering solution treatment times and temperatures of additively manufactured AlSi10Mg alloy for Boeing. Through mechanical testing and microstructural characterization, the group will determine an optimal heat treatment to reduce manufacturing energy while retaining optimal mechanical properties.

Covestro Characterizing of Fiberglass length and Mechanical Properties of 20% Glass-Filled Polycarbonate Materials Covestro is currently researching the mechanical properties of their Medical Glass-Filled Makrolon® Single Use Surgical Instruments and Drug Delivery Devices. The aim of this project is to determine how the fiberglass orientation affects various mechanical properties in the 20% Glass-filled Polycarbonates (GFPC). This project aligns with Covestro's sustainability and innovation goals and has the potential to reduce waste in local communities.

Scaled Ionics

High Temperature Alloy Compatibility with Battery Cathode Materials Processing Environments We are partnering with Scaled Ionics to identify and suggest material candidates to aid in their development of lithium-rich cathodes. In particular, we are tasked with identifying stable metals for their early stage testing and product development.

Measurement of Residual Stress in QT+ Plate and Effect of Plate Design on Residual Stress after Forming In response to significant edge waves in new steel grade (QT+), this project examines and quantifies the effects of equalizing residual stresses on deflection.The outcomes of the project are intended to decrease the number of defective parts, therefore reducing CO2 Emissions, and to implement future methodologies that will prevent residual stress issues.

Westinghouse

Cr Coating Grind Through Detection Westinghouse uses abrasive surface polishing/grinding of Cr-coating thickness and surface roughness. The project seeks to design an inspection method that is able to detect regions that have inadvertently been "polished through" that can be used in the current production path.

Simulating Microstructure seen in Departure from Nucleate Boiling Event This project aims to design a cost-effective protocol for testing proprietary nuclear fuel cladding. If successful, the protocol could be used as a primary prototyping test for novel nuclear cladding material, reducing company expenditures in areas such as materials and labor.

Additional projects included:

A High-Tech Gymnasium – Reimagining Indoor Sports with Electrochromic Materials Multi-Sport Court gym floors utilize a singular or shared physical space with a variety court lines that maximize the number of sports that can be played in a shared space. The overlapping lines can often confuse players and diminish the quality of play. This project manipulates the optical properties of polymer dispersed liquid crystals (PDLC), an electrochromic material, to create gym floor lines that can vanish and reappear at the press of a button.+

Summer programs

The International Research Experience for Students (IRES) gives students the opportunity to perform cutting-edge research related to sustainable materials development in the University of Sheffield's laboratories in England.

Our research facilities

Learn more about our undergraduate facilities

MME professors secure $14.5 million in funding for innovative research projects

Congratulations to Dr. Kaan Erkorkmaz and Dr. Hamid Jahed , both professors in the Department of Mechatronics and Engineering, for receiving a boost from the Canada Foundation for Innovation .

Erkorkmaz's research focuses on the digital transformation of manufacturing and was awarded $6.4 million, and Jared's research, which explores cold spray technology, has received an investment of $8.1 million. This means that the newest funding total for these two mechanical and mechatronics research projects is $14.5 million.

As of now, both professors are actively seeking applications from graduate students who are interested in their cutting-edge research. If you're intrigued by their work, we encourage you to explore the application process here .

The Canada Foundation for Innovation (CFI) is a non-profit corporation that invests in research infrastructure at Canadian universities, colleges, research hospitals and non-profit research institutions.

Read the full article in Waterloo News for the complete list of University of Waterloo researchers included in the newly-announced funding.

Future students ,
Future graduate students ,

500 + Mechanical Engineering projects For College Students

Table of Contents

Latest Mechanical Engineering Major ,Minor ,Mini Projects 2018

Old view (500 + ) mechanical engineering projects ideas, topics ,list.

We provides latest 2010 – 2018 Mini and Main Mechanical Engineering Projects , Project Ideas, Project Topics for final Year Mechanical and Automobile Engineering Students with Abstract, and Reports on Pneumatic, Hydraulics and Fluid mechanics.

Industrial engineering and management Related Mechanical projects

New Updated Mechanical Engineering Project titles ( June 2018)

Design, Development and Testing of Axis Piston Pump
Design and Analysis of Automated Truck Cabin Suspension System
AUTOMATIC LASER GUIDED PUNCHING MACHINE
Design and Fabrication of frictionless energy generation using flywheel for electric vehicles
Design and Fabrication of Piston Operated Water Pump
Design of basic model of semi-automatic dish washer machine
Spiral binding punching machine – Diploma Mechanical Projects
Mechanical Project on Auto Turning Fuel Valve -Report Download
Design and analysis Of Crane Hook -Mechanical CAD/CAM Project
Paper bag making machine Latest 2019 Mechanical Project
Withworth Quick Return mechanism Operated Conveyor- Mechanical Project
Design and Fabrication Of Pepper thresher machine -Mechanical Project
Defence -military based Projects For Engineering Students
Advance Cam Operated Hammer -Mechanical Project
DESIGN AND FABRICATION OF SLIDING RAM BY USING QUICK RETURN MECHANISM
Design and Analysis of Two Wheel Drive Forklift for Industrial Warehouses
Design and Fabrication Of Beans Sheller Machine
Box Transfer Mechanism , Through kinematic Link -Mechanical Project
Design and Fabrication on Hydrogen engine (Water fuel) – Mechanical Project

Design and Fabrication Related Mechanical Engineering Projects:

DESIGN AND FABRICATION OF OIL SKIMMER PROJECT
Design and Fabrication Of Reaction Turbines-Mechanical Project
Modern Mirror Cutting Machine – Mechanical Project 2017
Design and Fabrication Of Multiple Wood Working Machine
Automatic Spiral Punching Machine -Mechanical Project
Design Of Automated Wall Plastering Machine
Design and Fabrication of Magnet and Spring Suspension in Bicycle
Design and Fabrication Of Idler Gears- Mechanical Project
A utomatic sliding gate openers Using Rack and Pinion – Mechanical Project
Design and Fabrication Of Safety lift Mechanism
Fabrication of vertical Bridge Lifting Mechanism
DESIGN AND FABRICATION OF MODIFIED GRAIN BUCKET
Design and Fabrication of Digital Hydraulic Jack
Design and Development Pneumatic Operated Washer Making Machine
Hand Operated Or Manually Operated Punching Machine
Design and Fabrication of Stair Climbing Trolley – Mechanical Project
Design and Fabrication of Ragi Ball Machine
Design and Fabrication Of Motorized screw jack -Mechanical Project
Fixed axial Pneumatic Jack – Mechanical Project
Design and Fabrication of Typical Pipe Cutting Machine
Design and Fabrication of a Wear Testing Machine-Mechanical Project
Design and Fabrication of Chain Tightener-Mechanical Project
Design and Fabrication of Plastic Bottle Crusher Machine
Design and Fabrication of Power Generating Manual Treadmill
Design And Fabrication Of Portable Concrete Mixture Machine
Fabrication Of automatic Hydraulic Bending and Bend Removing Machine
Design and Fabrication of Square Hole Drilling Machine
Design and fabrication of a screw conveyor
Design and Manufacturing of Segway Report Download – Mechanical Project
Design and Fabrication of Hexagonal Cutting Lathe Machine
Sand Sieving machine | Sand Screening machine – Mechanical Project

Automobile related projects titles include projects related to new inventions in automobiles , car designing projects, Custom Bike Modifications , Automobile parts analysis and Manufacturing.

Design and Fabrication of a Universal Coupling (Hooke’s Joint ) Report Download
Design and Development of Radial air engine
DESIGN OF AN AUTOMOTIVE DIFFERENTIAL WITH REDUCTION RATIO GREATER THAN 6
Button Operated Electro-magnetic Gear Shifting System For Two Wheeler
Design and Fabrication of Shaft Drive for Bicycle | Mini Diploma project
90 DEGREE TURNING STEERING MECHANISM Automobile Mechanical Project
Design and Analysis of Wheel Rim Using Finite Element Method
Magnetic Shock Absorber Mechanical Project
Automobile Surveillance -Mechanical Seminar , Project
DESIGN OF HALF – SHAFT AND REAR WHEEL HUB ASSEMBLY OF A RACE CAR
Design and Fabrication of Magneto-Rheological Braking system
Design and Fabrication of Two Wheeler Hybrid Vehicle
Design and Fabrication Of Rotary Drum Filter Mechanical project
Simulation of Plume Spacecraft Interaction- Mechanical Project
How to Make Vending Machine – Automatic Vending machine Projects
Design and Fabrication of Active steering System
Fabrication of Hybrid (Petrol and Electric) Motorcycle Vehicle
Design and Fabrication of Foldable Bicycle – Mechanical Project
Design of Auto-Tilting Mechanism For Car – Mechanical Project
Design and Analysis of Truck Chassis – Mechanical Project
Automatic Differential Unit Locking System – Mechanical Project
Electric Power Assisted Steering -Mechanical Project
Fabrication Of Turbocharger for two wheeler -Mechanical Project
360 Degree Wheel Rotation Vehicle -Mechanical Project
Fabrication and Analysis Of A Continuously Variable Planetary Transmission System
Fabrication of Motorized Tri-Cylinder Air Compressor
Design and Fabrication of Aqua Silencer For IC engines
DESIGN AND FABRICATION OF SELF – CHARGING BICYCLE
Intelligent Braking System in Four Wheeler – Mechanical Project
Design and Implementation of Automatic Emergency Braking System
Design and Fabrication of Self Balancing Two Wheeler – Mechanical Project
Design and Fabrication of Automatic Main Stand for Two-Wheelers

Agricultural Mechanical Engineering Projects:

Manually Operated Biogas Filling Machine – Mechanical Engineering Project
Advanced Rubber Tree Tapping Machine Report Download
PICO HYDRO POWER GENERATION Renewable Mechanical Projects
Design and Fabrication of Vegetable Cutter -Mechanical Project
Design and Fabrication Of Agricultural Sprayer -Mechanical Project
AUTOMATIC INTELLIGENT HYDRO IRRIGATION SYSTEM -MECHANICAL PROJECT
Design and Fabrication of Pedigree Making Machine
Study and Fabrication of Solar Powered Multiple Crop Cutter

Pneumatic and Hydraulic Projects:

PNEUMATIC ROTARY GRINDING MACHINE- Mechanical Project
Automatic Hydro Pneumatic Lubrication System- Mechanical Project
Design and Fabrication Of Hydro-Pneumatic Clamping System
Automatic Pneumatic Glass hole Drilling Machine
Pneumatic Operated Double Hacksaw Mini Mechanical project
Single Cylinder Double acting Reciprocating pump-Mechanical project
Pneumatic Bearing Press -Mechanical Mini Project
Design and Fabrication of Pneumatic Conveyor System
Design and Fabrication Of Drum Truck Tilting System
Automation of Fixtures Using Hydraulic Power Pack for a Bogie Underframe
Fabrication Of Hydraulic Tailstock -Mechanical Project
Two Jaw parallel Pneumatic Gripper Mechanical Project
Pneumatic Dual Water pump using Pneumatic cylinders -Mechanical Project
Fabrication of hydraulic pipe clamp pressing machine
Automatic Pneumatic Sliding Door Using Sensors and Controllers
Design and Development of Integrated pneumatic Car Jack
Fabrication of High Torque Hydraulic Spanner – Mechanical Project
Design and Fabrication of Pneumafil Controller
ELECTRICITY AND WATER PUMPING SYSTEM USING WIND MILL
Design and Fabrication Of Vertical Axis Wind mill | MECHANICAL PROJECT
Biogas Compression and Storage System for Cooking Applications in Rural Households
DESIGN AND FABRICATION POWER GENERATING SEE-SAW SYSTEM
Design and Fabrication of Automatic Drainage Cleaning System using Solar Panel
Design and Fabrication Of Sand Collecting and Sand Slinger Vehicle
Solar Powered Remote Controlled Smart Security Gate -Mechanical Project
Power Generation by Gym pull up -Mechanical Project
Frictionless Wind Turbine Using Magnetic Levitation -Mechanical Project
Fabrication of Humidification Plant Using Single Blower
Reverse Osmosis Water Purification by Cycling Action
Power Saving System For Lathe Machine- Mechanical Project
Fabrication and Analysis of Vapour Compression System with Ellipse shaped Evaporator coil
Bedini wheel Using Electromagnetic Flux Generation
Design and Fabrication of Alternate Energy Storage Device using PCM
Review of Free Energy Generator using Flywheel
Performance Evolution of Domestic Refrigerator Using LPG Cylinder
Design and Fabrication of Parabolic Solar Collector – Mechanical Project
Design and Fabrication of Automated Guided Sweeping Vehicle (AGSV)
Design of Automated Coil Winding Machine
Automatically Timed Kinematic Transport System -Mechanical Project
Design and Fabrication of Automatic Weight Sorting Machine
Design and Fabrication of Staircase Climbing Robot -Mechanical Project
Wireless Controlled Pneumatically Operated Wall Climbing Robot
Design and Fabrication Automatic Pressure Control Valve
Design and Fabrication of Voice Activated Robotic Arm – Mechanical Project

Machine Tools/ Manufacturing Related Mechanical Projects

PEDESTAL SPOT WELDING MACHINE-MECHANICAL PROJECTS
The Mechanism and Kinematics of a Pantograph Milling Machine
Design and fabrication of Table lifting mechanism for upright drilling machines
PANTOGRAPH UNIVERSAL GAS CUTTING MACHINE- MECHANICAL PROJECT
Involute Gear Profile Error Detector Mechanical project
Fabrication of Mosaic Polishing Machine- Mechanical Project
Fabrication of Rotary Kaller- Mechanical Project
Design and Fabrication Of Concave Attachment For Shaper Machine
FABRICATION OF LATHE COOLANT PUMP WITH FITTING ARRANGEMENT
Design and Animation Of Scissor Lifitng Table Mechanical Project
Fabrication Of Home Flour Milling Machine – Mechanical Project
Design a drill jig for drilling on cylindrical surface -Mechanical Project
Design and Manufacturing of CNC Milling for Small scale Industries
Design and Fabrication of 360° Flexible Drilling Machine
Design and Development of Punching Die and Feeder Mechanism
Wood Engraving Using 3 Axis CNC Machine – Mechanical Project
Design and Fabrication Of CMM inspection Fixture – Mechanical project
Design and Analysis of Blanking and Piercing die punch
Design and Fabrication of Weeding Machine -Mechanical Agricultural Project
Design and Fabrication Of Mini Conveyor using Geneva Mechanism
Fabrication Of Miller Cutter with compressed air -Mechanical Project
FABRICATION OF HELICAL SPRING LOAD TESTING MACHINE
Indexing Method Slotted Drilling Machine-Mechanical Project
FABRICATION OF HAND OPERATED BENDING MACHINE
Design of a Power Saving Industrial Conveyor System
Design and Fabrication of Semi-Automatic Road Reflector Stud Installation Machine
Smart Operator Following Trolley For Material Handling Industries
Bevel gear operated Screw Jack for Lifting Operation
Quality management through six Sigma Approach – Mechanical Project
Manual Die Cutting Machine – Leather Cutting Machine | Mechanical Project
Need of Lapping Machine for Valve Component: A Case Study
Design and Fabrication of Mini Jet Engine-Mechanical Project
Heat Transfer Analysis of Engine Cylinder Fins Having Triangular Shape

This List will Update Regularly ..Keep Visiting If You Have Any Doubt Feel Free to Ask !

Sachin Thorat

Sachin is a B-TECH graduate in Mechanical Engineering from a reputed Engineering college. Currently, he is working in the sheet metal industry as a designer. Additionally, he has interested in Product Design, Animation, and Project design. He also likes to write articles related to the mechanical engineering field and tries to motivate other mechanical engineering students by his innovative project ideas, design, models and videos.

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Student Employment

Position: Undergraduate Research Assistant (NTM)

Research Project

Design of Biomechanical Devices and Test Systems

Job Description

The Northwest Tissue Mechanics (NTM) Laboratory is seeking a motivated individual to design and build products and systems used for biomechanical applications (e.g., testing of connective tissue and joints). General duties will include: designing parts, 3D modeling, 3D printing, mechanical testing, and data analysis. An excellent candidate will currently be at least a Sophomore in Mechanical Engineering (or other related fields) who has attention to detail and is hard-working, well-organized, and interested in engineering design and product development. Competency in the following areas is highly desired: Solidworks, machining, and computer programming. This paid position offers an excellent opportunity to gain hands-on experience in biomedical engineering, product development, and commercialization.

Website: https://www.boisestate.edu/coen-ntm/

Hours: Full-time in Summer 2024 (40 hours/week); Part-time in Fall 2024 (~15 hours/week)

Application Due: Mar. 31st (Sunday) Start Date: May 2024 (with potential to start earlier) End Date: Dec. 2024 (with potential for longer employment)

If Interested

Send your resume, unofficial transcript, and a brief cover letter to Trevor Lujan ( [email protected] ). We will contact selected students for an interview shortly after the application deadline.

60 Best AutoCAD Project Ideas for Beginners and Experts

Table of Contents

AutoCAD is a powerful tool that allows interior designers, architects, and engineers to design a wide range of applications. If you are passionate about architecture, 3D modeling, construction, or house designing, then you can very well convert your imagination into reality by creating amazing designs in AutoCAD. Most importantly, by working on unique AutoCAD project ideas, you can enhance your skills and add value to your portfolio.

In case, you are unsure what topic to choose for your AutoCAD project or if you run short of AutoCAD project topics, then you will find this blog helpful. Here, we have suggested several fascinating AutoCAD project ideas for students at different skill levels, starting from beginners to advanced levels.

Continue reading to get exclusive ideas for AutoCAD Projects on different branches of engineering and designing.

Before we dive into AutoCAD project topics and ideas, let us see a brief overview of AutoCAD.

What is AutoCAD?

AutoCAD is computer-aided drafting software used for many purposes like designing blueprints for bridges, buildings, interior and exterior designs, and much more. Majorly, designers and drafters use this commercial tool to create 2D and 3D computer drawings. It has a desktop version that was released in 1982. It is also accessible as a mobile, web, and cloud-based application since 2010, under the name AutoCAD 360.

Particularly with AutoCAD, the users can create 3D objects and apply colors, materials, and/or textures to different surfaces. This helps the users to easily visualize the final product. Furthermore, AutoCAD users may also quickly and easily edit or delete details using simple commands like mirror, copy, stretching, rotate, and more. When compared to manual drawing, one can create a drawing in AutoCAD much faster with accurate dimensions.

Besides the user-friendly interface, the AutoCAD software also has built-in design layouts and analytical tools. Especially, with the analytical tools available in AutoCAD, the designers and architects can plan, design, execute, and analyze a building’s strength at the design level. Additionally, this software is beneficial for Civil, Mechanical, and Electrical engineers to precisely design, analyze, and solve design issues. Also, the features of AutoCAD make it the best tool for 3D printing, and graphic designing. Apart from engineering, the software is used widely in interior designing, industrial designing, and the fashion industry.

Why is it Important to do AutoCAD Projects?

AutoCAD projects are one of the best ways to improve drafting, math, geometry, and engineering skills. As AutoCAD is user-friendly and offers a wide range of technical drawing components, it is considered to be an excellent tool for beginning a career in Computer-Aided Drafting (CAD).

The following are a few more reasons why one should work on AutoCAD projects.

Enhances CAD drawing skills
Develop CAD drafting and designing skills
Provides the basic knowledge of AutoCAD commands
Adds value to the portfolio
Sharpens critical thinking and mathematical skills
Increases the career opportunities to roles such as design engineer and AutoCAD operator.

Know How to Choose a Good AutoCAD Project Idea

For doing an AutoCAD project, a topic or idea is essential. So, first, make sure to identify an appropriate AutoCAD project idea by following these steps.

Determine the area you would like to concentrate on. It can be mechanical engineering, civil engineering, electrical engineering, or interior design.
In the area of your choice, gather several possible design ideas.
Brainstorm each idea and list the essential components needed to implement that idea.
Finally, do a complete analysis and choose an appropriate project idea suitable for your skills and knowledge.

Also Read: 111 Excellent Genetic Engineering Research Topics

List of the Best AutoCAD Project Topics and Ideas

Are you hunting for top AutoCAD project ideas? If yes, then make use of the list published below. In the list, we have published 60 excellent ideas for AutoCAD projects on interior designing, and civil, mechanical, and electrical engineering.

Simple AutoCAD Project Ideas for Beginners

Design objects with irregular curves and tight tolerances using AutoCAD.
Design 3D models of currency symbols in AutoCAD
Create an automatic wrapper machine using AutoCAD.
Create a 3D model of a spanner in AutoCAD.
Make 3D spring in AutoCAD
Take a picture of an object and recreate it in AutoCAD.
Make injection molding of complex parts.
Design a multipurpose portable desk in AutoCAD.
Make chess pieces in AutoCAD.
Model a 3D tire in AutoCAD.

Civil Engineering AutoCAD Project Ideas

Create a simple floor plan using the fundamental concepts of AutoCAD.
Define workflow for a civil engineering project using AutoCAD.
Create a 3D model of a house using AutoCAD.
Model a shopping mall using AutoCAD.
Design a swimming pool using AutoCAD.
Create a model of a 5-star hotel using AutoCAD.
Using AutoCAD, estimate work hardening in bent sheet metal objects.

Electrical and Electronics Engineering AutoCAD Project Ideas

Create a 3D twisted pair of wires using AutoCAD.
Design electrical systems and circuit diagrams using AutoCAD.
Create a 3D spiral bulb using AutoCAD.
Make an electrical house wiring layout using AutoCAD.
Make a 3D Pin A.C plug using AutoCAD.
Design an LED unit using AutoCAD.
Make 3D speakers in AutoCAD.
Design a fan blade using AutoCAD.
Make a 3D earphone with surfacing tools.
Create a 3D model of a CPU fan with AutoCAD

Mechanical Engineering AutoCAD Project Ideas

Model a 3D mechanical gear using AutoCAD.
Design a 3D mechanical wrench using AutoCAD.
Create a 3D model of a disc brake plate using AutoCAD.
Model 3D ACME bolt using AutoCAD.
Design a 3D piston.
Design a 3D model of a train using AutoCAD.
Model a 3D jet engine with a propeller using AutoCAD.
Design a differential gear using AutoCAD
Create a pressure vessel for a marine substation.
Design an open-source precision pump using AutoCAD.

Interior Designing AutoCAD Project Ideas

Design 2D objects like a dining table using AutoCAD
Design a dressing table using AutoCAD.
Create a 3D model of the interior of a kitchen.
Design a comfortable sofa using AutoCAD.
Create a 3D model of a chair using AutoCAD
Create 3D simulations and illustrations of an interior design.

Also Read: 120 Outstanding Mechanical Engineering Project Ideas

Interesting AutoCAD Project Topics

Model 3D impeller in AutoCAD.
Make chain link with AutoCAD.
Robotize polishing and deburring using force feedback control.
Make a ball bearing using AutoCAD
Determine the function of a machine under high-stress conditions using AutoCAD
Make a 3D model of nuts and bolts using AutoCAD
Create a USB flash drive with detailed parts using AutoCAD.
Demonstrate the universal coupling concept with AutoCAD
Design control systems for mechanical, electrical, and plumbing systems.
Model a 3D car using AutoCAD.
Design an automatic chamfer grinder using AutoCAD.
Analyze and design improvement of light module fixture using AutoCAD.
Create an eco-friendly jetpack.
Demonstrate Hooke’s Joint mechanism using AutoCAD.
Make an ergonomic handle using AutoCAD.
Create objects and 3D print them using AutoCAD.
Demonstrate Oldham’s coupling in AutoCAD.

Wrapping Up

From the above-shared list, feel free to choose any idea of your choice and complete your AutoCAD project. In case, you need any other innovative AutoCAD project topics or if you struggle to do your AutoCAD projects, call us immediately.

At greatassignmenthelp.com, we have plenty of experienced assignment helpers with strong knowledge of AutoCAD. According to your needs, by using their expertise, they will assist you in completing civil engineering, mechanical engineering, electrical and electronics engineering, and interior designing projects using AutoCAD. Especially, by taking AutoCAD assignment help from our experts, you can also finish your projects accurately in advance of the deadline and boost your portfolio.

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Top 150 Mechanical Engineering Research Topics [Updated]
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 ...
Latest Mechanical Engineering Projects Ideas List
Our researchers constantly research on new topics and ideas to help students in their research on mechanical system designs. Need Help Selecting a Topic ? Get Free Guidance & Support Call/Watsapp: +91 7977325066. ... Our mechanical engineering project kits are used by various engineers, researchers to be used as enhancements or building blocks ...
Top 50 Emerging Research Topics in Mechanical Engineering
8. Autonomous Vehicles and Transportation. 9. Structural Health Monitoring and Maintenance. 10. Manufacturing Processes and Industry 4.0. Top 50 Emerging Research Ideas 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 ...
Mechanical engineering
Mechanical engineering articles from across Nature Portfolio. ... Research Open Access 16 Mar 2024 Communications Engineering. Volume: 3, P: 48. Mechanical behavior of hot extruded aluminum 6082 chip.
Research at Purdue ME
Research at Purdue University Mechanical Engineering. At Purdue's School of Mechanical Engineering, researchers study everything from fuel pumps to heart pumps. Carbon fiber to carbon nanotubes. Rocket engines to solar power. Purdue ME's 94 faculty and 1,000 graduate students collaborate with industry, government, and academia on millions of ...
Students present mechanical engineering projects that have global
For the sixth year in a row, they have organized the Mechanical Engineering Research Exhibition (MERE), which was held on Oct. 11 in MIT's student center. Over 60 graduate students, postdocs, and Undergraduate Research Opportunity Program (UROP) students presented their research projects to nearly 200 attendees in a poster session-style event.
Research Area: Mechanics
MIT's Department of Mechanical Engineering (MechE) offers a world-class education that combines thorough analysis with hands-on discovery. One of the original six courses offered when MIT was founded in 1865, MechE's faculty and students conduct research that pushes boundaries and provides creative solutions for the world's problems.
RESEARCH @ MIT MECHE
MIT's Department of Mechanical Engineering (MechE) offers a world-class education that combines thorough analysis with hands-on discovery. One of the original six courses offered when MIT was founded in 1865, MechE's faculty and students conduct research that pushes boundaries and provides creative solutions for the world's problems.
Research & Impact
Important multidisciplinary, project-based learning opportunities within Mechanical Engineering's three research themes employ a range of methodologies — design thinking, multiscale modeling, physics-based simulation, control systems, and artificial intelligence — to the study of the nanoscale to complex living and mechanical systems.
Current Projects
Current Projects. Below, you will find a sample listing of some of the research projects taking place within the Mechanical Engineering-Engineering Mechanics department. Use the search box or advanced filtering options to search our research projects by keyword or by investigator. You may also learn more about our research thrusts and the ...
Mechanical Engineering research projects
Academics in Brunel's Mechanical Engineering department are involved in many high-profile national and international research projects that further our understanding. Below are some of our Mechanical engineering projects that are ongoing or have been completed. Total number of results: 110.
Frontiers in Mechanical Engineering
Design and Microstructure Control of Additively Manufactured Mechanical Metamaterials. A multidisciplinary journal which bridges the gaps between areas of research in the mechanical engineering field, from biomechanical engineering to turbomachinery and tribology.
Research Opportunities
How to Research with a Mechanical Engineering Faculty Member for Credit (ME 49800/49900) ... During the meeting with the faculty, discuss the following: type of research/project, time commitment, expectations, etc. Complete the Undergraduate Research Expectations document with the instructor. It is important to complete this document so that ...
Bachelor of Science in Mechanical Engineering (BSME)
Bachelor of Science in Mechanical Engineering (BSME) - Research and Independent Projects. Undergraduate research and projects offer unique educational opportunities and all undergraduates are encouraged to participate. All BSME students are required to have at least one full-semester project experience through the ME43 Senior Design Project.
Mechanical Engineering Science Projects
Science Fair Project Idea. In this engineering challenge, you will build a car powered by nothing but a rubber band. The farther the car goes, and the fewer materials you use to build it, the higher your score. Enter your score in the 2024 Science Buddies Engineering Challenge for a chance to win prizes! Teachers, lesson plan versions of this ...
Research
Michigan Mechanical Engineering is home to four fully-funded, world-class centers. Automotive Research Center. Driving new performance and operation technologies for ground vehicles. NSF Engineering Research Center for Reconfigurable Manufacturing Systems. Developing innovative systems to build high-quality, high-performance products.
Mechanical Engineering 2023 SURE Research Projects
In this project, the student will perform a combination of experimental testing and dynamic modeling of devices fabricated by the Microdynamics Laboratory in Mechanical Engineering, to better understand motions that are feasible for these miniature-engineered systems. Research Mode: Hybrid, In-Lab. ME Project #2: Oil Wicking Through Dendrites
Research and Projects
Research and Projects Student Projects Stirling Engine Fan (click on title for poster). ME95 "Product Realization," is an interdisciplinary, sophomore course in the Mechanical Engineering undergraduate program that provides an introduction to the product development process, including design, fabrication, assembly and testing.
25+ Research Ideas in Mechanical Engineering for High School Students
13. Prosthetic Design and Biomechanics: Research the mechanics behind prosthetic devices, user-friendly designs, and materials that combine flexibility, lightness, and strength. 14. Sports Biomechanics: Investigate the mechanics of various sports movements and their optimization.
Research projects
Our faculty engage in a broad range of collaborative research projects with our academic, government, and industry partners. Solid Mechanics. Energy Systems. Thermal-Fluids. Intelligent Systems. Dynamics & Robotics. Bioengineering. Learn about the many research projects conducted in Northern Arizona University's Mechanical Engineering Department.
660+ Mechanical Engineering projects New Updated
This article contain list of Mechanical Engineering Projects list , Mechanical Engineering Project ideas , Mechanical engineering project topics This list contain projects which are helpful for B.E. Mechanical , Diploma Mechanical Students For Final year Submission . If you looking For Final year , Mini , Major project for Engineering Diploma , B.E. / B.TECH mechanical field then you can refer ...
Research opportunities
Research opportunities - Materials Science and Engineering. Boeing. Surface Preparation for Adhesive Bonding to Aluminum Alloy AlSi10Mg Additive Manufacturing This project tests different surface treatment methods for additively manufactured aluminum. The goal is to find the shop-floor surface treatment method that produces the best adhesive bond using 3M's EC2216 Epoxy.
PROJECT IDEAS FOR MECHANICAL ENGINEERING STUDENTS
Engineering students need to play an active role in deploying viable, sustainable and cost-effective solutions that would meet the demands of the challenges of the world. This book listed some of ...
MME professors secure $14.5 million in funding for innovative research
Erkorkmaz's research focuses on the digital transformation of manufacturing and was awarded $6.4 million, and Jared's research, which explores cold spray technology, has received an investment of $8.1 million. This means that the newest funding total for these two mechanical and mechatronics research projects is $14.5 million.
500 + Mechanical Engineering projects For College Students
Paper bag making machine Latest 2019 Mechanical Project. Withworth Quick Return mechanism Operated Conveyor- Mechanical Project. Design and Fabrication Of Pepper thresher machine -Mechanical Project. Defence -military based Projects For Engineering Students. Advance Cam Operated Hammer -Mechanical Project.
Effective Project Management Tips for Mechanical Engineers
Managing projects as a mechanical engineer requires a unique blend of technical expertise and organizational skills. You need to balance the demands of design, analysis, and manufacturing while ...
Position: Undergraduate Research Assistant (NTM)
Research Project. Design of Biomechanical Devices and Test Systems. Job Description. The Northwest Tissue Mechanics (NTM) Laboratory is seeking a motivated individual to design and build products and systems used for biomechanical applications (e.g., testing of connective tissue and joints). General duties will include: designing parts, 3D modeling, 3D printing, mechanical testing, and data ...
60 Best AutoCAD Project Ideas for Beginners and Experts
Mechanical Engineering AutoCAD Project Ideas. Model a 3D mechanical gear using AutoCAD. Design a 3D mechanical wrench using AutoCAD. Create a 3D model of a disc brake plate using AutoCAD. Model 3D ACME bolt using AutoCAD. Design a 3D piston. Design a 3D model of a train using AutoCAD. Model a 3D jet engine with a propeller using AutoCAD.

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