About the Department
One of four departments in the College of Engineering and Computer Science, the Department of Mechanical Engineering offers accredited and nationally ranked undergraduate and graduate degrees in Mechanical Engineering, Bioengineering, Automotive Systems Engineering, and Materials Science and Engineering. Our curriculum offers comprehensive and rigorous education rich in design, research, and interdisciplinary opportunities leading to successful careers in industry, government, higher education, and non-profit organizations both in southeast Michigan and worldwide.
Mechanical engineering is one of the oldest engineering fields. It is also one of the broadest in scope, for it is not restricted to any particular technology or particular type of devices. Mechanical engineers understand the basic principles of statics and dynamics, thermodynamics, heat transfer and fluid flows, control, instrumentation, and other areas, and know how to use these principles to design and manufacture technical systems.
The field is continuously evolving with new technologies bringing new challenges, new knowledge, and new job opportunities. One example is the automobile. The automotive industry has always employed many mechanical engineers, but the work they do and the problems they solve now are completely different than what they were fifty or even twenty years ago. Another example is new methods of energy generation. Neither wind, nor solar, nor biomass energy would be possible without mechanical engineers.
Bioengineering is a cross-disciplinary field, in which methods of various areas of engineering are applied to solve problems in medicine, biology, health care, and, in general, to improve the quality of human life. The expertise of a bioengineer combines knowledge of engineering principles with the understanding of living systems.
Bioengineering is a rapidly growing profession with expanding career opportunities. Bioengineers work on medical and health care devices (artificial organs, imaging systems, surgery instruments and so on), medical procedures (such as rehabilitation), bio-processing technologies in pharmaceutical and other industries, and other biology-related problems (such as safety and ergonomics).
The automotive engineering industry is currently in the process of fundamental change, probably the most significant one in its history. Electric and autonomous vehicles are the two most noticeable aspects of the change, but there are other rapid developments such as the use of lightweight materials, more efficient powertrains, intelligent control systems, better manufacturing techniques, and improved comfort and safety.
The automotive engineering program is an interdisciplinary field that integrates the knowledge of other technical and non-technical disciplines. In addition to expertise in a specialized area, an automotive engineer must understand broader issues and have the skill of synthesizing diverse technical approaches into a system-wide solution.
Materials science and engineering is an interdisciplinary field that enables advances in the development and application of materials in engineering practice. Technological innovations are directly linked to the understanding of materials and are required to meet next generational challenges. Advances in nanomaterials, energy storage materials (for example, for electric batteries), functional and sensory materials, lightweight structural materials, etc., will enable further development of practically all technology fields.
Student Leadership Award Winners!
Yesterday, we celebrated the annual Student Leadership Awards at UM-Dearborn! These awards recognize our students' dedication and hard work, who exemplify the best in leadership on campus. This year, we are fortunate to have three students from the Mechanical Engineering Department as winners. Join us in celebrating these outstanding individuals and student organizations who are making a difference at UM-Dearborn. Together, we are shaping the future of our campus and beyond.
Here is the list of our winners:
Regina Marie Arriola - Distinguished Student Leader Award
Zoie Mink - Bridge Builder and Campus Connector Award
Barbara P. - Unsung Hero Award
Also, we want to congrats the Society of Women Engineers UM-Dearborn for the Outstanding Student Organization Award.
View the complete list of winners.
Introducing Dr. Aditya Raghunandan
Please welcome Mechanical Engineering’s newest faculty member, Dr. Aditya Raghunandan!
Dr. Aditya Raghunandan (Adi) received his Ph.D. in Mechanical Engineering from Rensselaer Polytechnic Institute (RPI), studying the interfacial hydrodynamics and rheology of biomolecular surfactant films. His postdoctoral research in the Department of Mechanical Engineering at the University of Rochester focused on discovering the role of brain fluid transport in aging and neurodegeneration. Dr. Raghunandan's research goals are to discover how fluid transport and interfacial interactions destabilize biomolecules (proteins), contributing to diseases like Alzheimer's (AD) and failures during the manufacturing of protein-based biotherapeutics. To that end, Dr. Raghunandan's lab will develop tissue/organ-on-a-chip models to study protein-misfolding diseases like AD, and use scaled-down experiments of biomanufacturing unit operations to predict the manufacturability of protein-based drug molecules. Dr. Raghunandan's research expertise includes biofluid dynamics and biotransport, microfluidics, rheology, protein chemistry, and cellular biology. Results of his research have been published in journals including eLife, Physical Review Letters, Journal of Fluid Mechanics, Physical Review Fluids, and Soft Matter (cover). He has also won the Steadman Family Postdoctoral Associate Prize in Interdisciplinary Research.
At our department, Dr. Raghunandan will continue his exceptionally successful research career and teach courses in bioengineering and mechanical engineering areas.
Department Staff
Rebekah Awood
Sherry Boyd
Nicole Engel
Advisory Boards
The ME department continually seeks outside interactions with business, industries, and government through its Industrial Advisory Boards. Our advisory boards are composed of industry professionals who provide input on curriculum, potential employment for students, research opportunities for faculty, and a perspective on future challenges requiring collaboration.
Subha Bhattacharyya, PhD
Principal Engineer
Medtronic PLC
Nilay Chakraborty, PhD
Director of Cryobiology and BioNexus Principal Engineer
American Type Culture Collection (ATCC)
Mark Cheng, PhD
Professor
University of Alabama
Sarah Sherman PhD
Senior Associate
Exponent
Jan Stegemann, PhD
Professor of Biomedical Engineering
University of Michigan
Chelsea Revita
Human Factors Engineer
Ford
Hugh Blaxill
MAHLE Powertrain
Managing Director
Jason Hoon Lee
Hyundai-Kia American Technical Center, Inc.
Senior Manager Vehicle Control Software
Taner Onsay, PhD
University of Michigan Dearborn
Lecturer and Student Career Advisor
Kelly Pietras
Formerly with Magna
Isidoro Mazzitelli
SKF USA Inc.
Director Product Development and Engineering Americas
Brian Schweitzer
Yazaki
Chief Engineer: Electronics, Components, Instrumentation & Core Engineering
Steve Przesmitzki
USCAR
Executive Director
Qigui Wang
General Motors
GM Technical Fellow, Advanced Materials Technology
Lisa R Sheth
Ford Motor Company
Manager of Advanced Product Development & Technology Operation