Mechanical engineering research drives the innovations that shape how we live, move, and stay healthy. From cleaner energy systems and advanced manufacturing to robotics, medical devices, and smart materials, this research turns ideas into real-world solutions.

As a mechanical engineering student, research means more than working in a lab. It’s an opportunity to solve meaningful problems, gain hands-on experience with cutting-edge technology, and collaborate with faculty who are advancing their fields. Students apply classroom knowledge to projects that improve sustainability, strengthen infrastructure, enhance healthcare, and create smarter, more efficient systems.

Participating in research builds the skills employers value most—critical thinking, teamwork, problem-solving, and innovation. Whether you plan to enter industry, pursue graduate school, or launch your own venture, research experience prepares you to lead in a rapidly changing world.

Mechanical engineering research empowers students to move from learning how things work to shaping what comes next.

Mechanical Engineering Research Areas

Our faculty and their research span a wide variety of specialties, giving you the opportunity to explore multiple directions and discover your passion.

Research & Expertise Areas:

  • Manufacturing & Materials
    • Additive and advanced manufacturing, composites and metals, smart and self-healing materials, sustainable manufacturing
  • Energy & Sustainability
    • Batteries, renewable energy, energy systems and modeling, combustion and alternative fuels, energy efficiency
  • Fluids, Modeling & Tribology
    • Computational fluid dynamics, flow in porous media, filtration and transport systems, friction and wear modeling
  • Robotics, Controls & Intelligent Systems
    • Robotics and assistive devices, embedded systems, sensors and actuators, control and autonomous systems
  • Health, Imaging & Bioengineering
    • Biomechanics and rehabilitation, biosensors and BioMEMS, computational biology, medical and biological imaging
  • Innovation, Design & Entrepreneurship
    • Translation of engineering research into real-world impact through design, startups, and interdisciplinary collaboration
  • AI & Data Analytics
    • Enabling data-driven decisions, rapid simulation, predictive maintenance, digital twins, and faster materials discovery—shifting engineering from traditional models to intelligent, efficient systems.
Mechanical Engineering Research Centers and Labs
  • The team at the Center for Sustainable Electrical Energy Systems (SEES) is exploring methods to make electric power systems more sustainable, cost-effective, and secure through research on energy storage, microgrid systems, and renewable energy sources.
  • The Connected Systems Institute (CSI) accelerates innovation by bringing together industry and academic researcher to facilitate digital transformation for small and medium-sized manufacturers, ultimately developing an educational curriculum to better prepare the workforce of the future.
  • In the Energy Storage Research Laboratory the focus is on fundamental electrochemical research, seeking new materials and understanding reaction mechanisms in the areas of renewable energy, sensor and water treatment.
  • The mission of GRid-connected Advanced Power Electrical Systems (GRAPES) is to accelerate the adoption and insertion of power electronics into the grid in order to improve system stability, flexibility, robustness, and economy.
  • The Industrial Training and Assessment Center (ITAC) is a U.S. Department of Energy supported program dedicated to helping small and medium-sized manufacturers and wastewater treatment plants minimize their energy costs through efficient use of resources
  • The Machine Shop is a hands-on facility with state-of-the-art manual and computer-assisted equipment and machine tools used by faculty, students, and members of industry.
  • The mission of the Movement Analysis for Biomedical Innovation & Technology (Mobility) Laboratory is to advance quantitative rehabilitation research for improving health and function of persons with disabilities.
  • The Bicycle and Motorcycle Engineering Research Laboratory helps manufacturers around the world to make their two and three-wheeled vehicles safer and more efficient. They offer students the opportunity to collaborate with manufacturers in designing and building test equipment, collecting and analyzing data, formulating mathematical models, and building prototypes.

As an R1 research institution, research is integral to our work and to the experience of students pursuing graduate degrees. Our college has a wide range of faculty-led labs that perform cutting-edge research. View a list of all of our college’s research labs, centers, and institutes.

Funding Partners

UWM is one of only two R1 research universities in Wisconsin, and the only one in Southeast Wisconsin. We’re also a top externally funded institution with robust opportunities for teaching and research assistantships. Partners that support our research include:  

  • Department of Energy (DOE)
  • National Aeronautics and Space Administration (NASA)
  • National Endowment for the Arts (NEA)
  • National Institute for Health (NIH)
  • National Institute on Disability, Independent Living, and Rehabilitation Research (NIDILRR)
  • National Science Foundation (NSF)
  • North Atlantic Treaty Organization (NATO)
  • United States Air Force (USAF)
  • United States Department of Agriculture (USDA)
  • United States Department of Veteran’s Affairs (VA)
  • Regional and national businesses
Undergraduate Research

A benefit of attending a top tier R1 research university is the opportunity to work with faculty engaged in cutting-edge research. This could include participating in the Support for Undergraduate Research Fellows (SURF) program. The SURF program helps you to improve your professional preparation through research by working closely with our faculty to explore, discover, and transform ideas into reality.

SURF students also receive funding for their efforts: from 2012-2023 almost $1.5M was awarded to over 700 students from our college.

man in energy lab
Professor Ryo Amano is directing a $5.7 million DOE grant that supports training in energy assessments for manufacturing.
Contact
Contact Info: ceas-me@uwm.edu

Street Address
College of Engineering & Applied Science
3200 North Cramer Street
Milwaukee, WI 53211

Mailing Address
College of Engineering & Applied Science
P.O. Box 784
Milwaukee, WI 53201-0784