Mechanical Engineering

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Office of Graduate Admissions
Bendetson Hall
Medford, MA 02155
(617) 627-3395
gradadmissions@tufts.edu

Mechanical Engineering (Ph.D.)

Mechanical Engineering as a research field addresses a diverse mixture of problems in fundamental engineering science as well as applications. From soft-bodied robots to -superconducting materials to cell swimming at the microscale, our faculty is involved in a diverse array of innovative research efforts. With applications such as new approaches to medical surgeries, the ability to store hydrogen for use in cars, and safely guiding airplanes into airports, these projects are excellent opportunities to solve many current everyday engineering problems.

Visit the Mechanical Engineering Ph.D. program page to learn more.

Mechanical Engineering (M.S.)

The Mechanical Engineering Master of Science degree program provides students with opportunities to strengthen their technical backgrounds for pursuing successful professional careers in engineering research, development and management. Graduate students enrolled in the Mechanical Engineering master’s programs have the option of pursuing a master of science degree with or without a thesis.

Visit the Mechanical Engineering M.S. thesis program page to learn more.

Visit the Mechanical Engineering M.S. non-thesis program page to learn more.

Human Factors (M.S.)

Human Factors is the study of the interaction of humans with technology. Human Factors is sometimes also referred to as “Engineering Psychology” or “Ergonomics.” The program offers specialized courses, training, and research opportunities in the human-centered aspects of engineering activities such as: medical devices and systems design, product design, computer-interface design, ergonomics, and workplace safety. The Human Factors MS degree with thesis program includes a substantial research thesis component.

Visit the Human Factors M.S. thesis program page to learn more.

Visit the Human Factors M.S. non-thesis program page to learn more.

Bioengineering (M.S.)

The Biomechanical Systems and Devices track in the Bioengineering master’s program investigates the application of technology to human biological systems. Areas of study include the mechanics of hard and soft tissues, human biomechanics, dynamics of human-machine interaction, and the design of assistive technology and medical devices.

Human-Computer Interaction (Certificate)

The Human-Computer Interaction certificate program looks at user interface design to develop computer products that meet market needs.

Manufacturing Engineering (Certificate)

The Manufacturing Engineering certificate program educates students in the latest technologies through a hands-on, industry-based curriculum, and contributes to the formation of future leaders in manufacturing engineering.

Faculty

Chris B. Rogers
Department Chair and Professor
Ph.D. , Stanford University
Robotics, Musical Instrument Design, Engineering Education
Behrouz Abedian
Associate Professor
Ph.D. , Massachusetts Institute of Technology
Fluid Mechanics, Electrokinetics, Thermal-Fluid Systems
Luisa Chiesa
Associate Professor
Ph.D. , Massachusetts Institute of Technology
Sustainable Energy, Superconducting Materials
Jeffrey S. Guasto
Assistant Professor
Ph.D. , Brown University, Engineering
Biophysics and Soft Matter, Cell Biomechanics and Sensing, Micro-Scale Fluid Mechanics and Transport Phenomena, Microfluidic Devices
Robert Hannemann
Professor of the Practice
Ph.D. , Massachusetts Institute of Technology
Thermal Sciences, Heat Transfer
Daniel J. Hannon
Professor of the Practice
Ph.D. , Brown University
Human Factors, Airspace Systems
Marc Hodes
Associate Professor
Ph.D. , Massachusetts Institute of Technology
Heat Transfer, Apparent Slip, Thermal Management of Electronics, Mass Transfer in Supercritical Fluids and Thermoelectricity
Mark Kachanov
Professor
Ph.D. , Brown University
Fracture Mechanics, Micromechanics of Materials
Erica M. Kemmerling
Assistant Professor
Ph.D. , Stanford University
Medical Engineering, Fluid Mechanics
Gary G. Leisk
Research Assistant Professor
Ph.D. , Tufts University
Machine Design, Non-Destructive Testing
Douglas M. Matson
Associate Professor
Ph.D. , Massachusetts Institute of Technology
Solidification Processes, Thermal Manufacturing, Machine Design
William Messner
John R. Beaver Professor
Ph.D. , University of California at Berkeley
Automatic Control Systems with an Emphasis on Applications to Data Storage Systems, Robotics, Microfluidics, Biological Systems and Instrumentation
Pratap Misra
Professor of the Practice
Ph.D. , University of California, San Diego
GPS, Emerging Satellite Navigation Systems
Dean Jianmin Qu
Jianmin Qu
Dean and Karol Family Professor
Ph.D. , Northwestern University
Micromechanics of composites, interfacial fracture and adhesion, fatigue and creep damage in solder alloys, thermomechanical reliability of microelectronic packaging, defects and transport in solids with applications to solid oxide fuel cells and batteries, and ultrasonic nondestructive evaluation of advanced engineering materials
Jason Rife
Associate Professor
Ph.D. , Stanford University
Navigation, Robotics, Controls
Anil Saigal
Professor
Ph.D. , Georgia Institute of Technology
Materials Engineering, Manufacturing Processes, Quality Control
Igor Sokolov
Professor
Ph.D. , The Mendeleev Institute of Metrology
Nanomechanics of Cells, Molecules, Polymers; Photonic Sensors; Soft Condensed Matter and Biomedical Research; Energy-Related Materials and Sustainability, Surface Science and Engineering
Kristen Wendell, headshot
Kristen Bethke Wendell
Assistant Professor
Ph.D. , Tufts University
Engineering Education, Design Practices, Learning Sciences
Robert D. White
Associate Professor
Ph.D. , University of Michigan
Micro- and Nano- electromechanical systems (MEMS/NEMS), Sensors, Dynamic System Modeling, Acoustics, Vibrations
Michael Wiklund
Professor of the Practice; General Manager, UL-Wiklund
M.S. , Tufts University
Human Factors
Iryna V. Zenyuk
Assistant Professor
Ph.D. , Carnegie Mellon University
Electrochemistry, Thermodynamics, Fluid Mechanics, Renewable Energy
Michael Zimmerman
Professor of the Practice
Ph.D. , University of Pennsylvania
Novel Polymer Electrolytes for Batteries, Liquid Crystal Polymers, Composite Materials

Application Deadline


Spring: September 15
Fall: December 15

A key admission requirement is strong academic background in mechanical engineering or a related technical discipline.

Application Requirements:


> Application Fee
> Resume/CV
> Personal Statement
> Official GRE scores

- GRE not required for current Tufts undergraduates applying to the M.S. degree program

- GRE scores may be waived for part-time students with five years of industry experience who are U.S. citizens or permanent residents. Visit go.tufts.edu/engmasters for complete details. If you believe you are eligible to have the GRE waived based on these requirements, please contact gradadmissions@tufts.edu with the subject line “Engineering part-time Master's GRE requirement"

> Official TOEFL or IELTS, if applicable
> Transcripts
> Three letters of Recommendation

For questions about this program, including scholarships and assistantships, please contact the graduate program director.
 
School of Engineering
Tufts University
200 College Avenue
Medford, MA 02155
 
Office: 617-627-3239