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We have two teams to help you through the process.
General questions prior to applying can be directed to our Graduate Recruiters.
Once you have applied, questions about the application process should then be directed to our Graduate Processors.
Graduate Recruiters: Located in the Multidisciplinary Studies Building 4.01.52
Office Hours: 8 A.M. - 5 P.M.
Monday, Wendesday and Friday - virtual office hours
Tuesday and Thursday - in-person
Phone: (210) 458-4331
Fax: (210) 458-4332
Office Hours: 8 A.M.–12 P.M.
Tuesday and Thursday - in-person
Phone: (210) 458-
Fax: (210) 458-
Send Official Transcripts to: firstname.lastname@example.org
Unofficial Transcripts and Other Documents for Spring 2022 can be Uploaded here! (requires UTSA
student ID in the form of abc123) if they have not been submitted as part of your application.
Unofficial Transcripts and Other Documents for Summer 2022 and Fall 2022 must be uploaded directly to the application.
Mechanical Engineering (M.S.)
Basic Degree Information/Description
The Master of Science program in Mechanical Engineering is designed to offer students the opportunity to prepare for leadership roles in careers with industry, government, or educational institutions. A thesis option is offered for research-oriented students. A non-thesis option is available for students who prefer a practice-oriented degree in engineering.
Why pursue an M.S. in Mechanical Engineering?
- Nationally and internationally recognized faculty
- Cutting-edge research projects funded by federal agencies and industries
- State-of-the-art laboratory facilities enabling students earn more hands-on experiences
- Possible teaching and research assistant positions
- A diverse environment with students from all over the world
- The minimum number of semester credit hours required for the degree is 30 for the thesis option and 33 for the nonthesis option.
- For a complete list of degree requirements please see the Graduate Catalog.
|Required Degree||A bachelor’s degree in mechanical engineering or a related field from an accredited institution of higher education or proof of equivalent education at a foreign or unaccredited institution.|
|Other Degree Requirements||A satisfactory undergraduate grade point average (GPA) in engineering or relevant coursework. Applicants may be admitted on a conditional basis as determined by the Graduate Committee of the Department. Applicants with a degree in a discipline other than mechanical engineering may be required to make up the deficiencies in the undergraduate mechanical engineering curriculum. Undergraduate courses listed as deficiencies do not count toward the graduate degree.|
|General University Requirements||Must meet university wide requirements.|
|Application||A completed a Graduate School application.|
|Transcripts||Official transcripts from all institutions attended. All international transcripts must be recorded in English or officially translated to English.|
|Resume or Curriculum Vitae||Required.
|Letters of Recommendation||Two professional and/or academic letters of recommendation.
|Statement of Purpose||A statement of purpose/research experience, and ranking of the concentration areas based on preference.
|Test Scores||General GRE, not older than five years. GRE scores waived for current UTSA students and UTSA alumni of the B.S. in Mechanical Engineering and closely related engineering programs (BME, CE, EE), who have an overall GPA above 3.0.
|Evaluation of Foreign Credentials||
All applicants including non-U.S. citizens (International), U.S. Citizens, and permanent residents who have earned university-level credit from foreign institutions are required to submit official transcripts along with an evaluation of the transcripts from Foreign Credentials Service of America.
|International Applicants||Must meet international graduate student admission requirements
Career Options Available for a M.S. Mechanical Engineering Graduate
- Professional engineers in R&D.
- Research personnel at national labs, NASA, Department of Defense.
- Manufacturing in general.
- Automobile industry.
- Aerospace industry.
- Major defense contractors, such as General Dynamics, Lockheed, Boeing.
- Pursuing higher degrees, such as PhD in engineering fields.
- Mechanical Systems and Design
- Mechanics and Materials
- Thermal and Fluid Systems
- Biomechanics and Bioengineering
- Computational Fluid Dynamics Laboratory (Dr. Kiran Bhaganagar): Developing large scale and high performance computing tools for fluid dynamic applications in the natural systems such as atmosphere, ocean and biological applications.
- Building Performance and Diagnostics Laboratory (Dr. Bing Dong): Energy systems/informatics, controls and diagnostics, indoor environment quality, probabilistic graphical models, numerical optimization, and uncertainty analysis.
- Flexible Manufacturing and Lean Systems Lab (Dr. F. Frank Chen and Dr. Adel Alaeddini): Technological advancement and tools of flexible manufacturing systems and lean enterprise systems.
- Computational Bioengineering and Control Laboratory (Dr. Yusheng Feng): Mathematical modeling of biological systems in the areas of bioheat transfer, model-based real-time control, multi-scale modeling of cancer, haptic device enabled surgical simulation, and medical devices design.
- Multiphase Flow Simulation Laboratory (Dr. Zhigang Feng): Theoretical/computational fluid mechanics and multiphase flow and its applications.
- Impact Dynamics Laboratory (Dr. John Foster): Dynamic behavior of materials/impact dynamics, computational mechanics, and failure modeling with peridynamics.
- Cardiovascular Biomechanics Laboratory (Dr. Hai-Chao Han): Determining the role of mechanical stress in the development and remodeling of the cardiovascular system and thus to improve the understanding, treatment, and prevention of cardiovascular diseases.
- Computational Reliability Laboratory (Dr. Harry Millwater): Developing effective computational tools to evaluate the reliability of engineered structures/components, thus ameliorating time-consuming and expensive physical testing.
- Robotics and Intelligent Machines (RIM) Lab (Dr. Brent Nowak): Design, simulation, testing, and analysis of intelligent devices, such as but not limited to mechatronics, robotics (AUV, ASV, serial manipulators), medical devices, and end-effectors through sensing and heuristic control methods.
- Manufacturing Systems and Automation Lab (Dr. Can Saygin and Dr. Krystel Castillo): Effective and efficient integration and synthesis of automation technologies, human resources, and decision-making models for design, planning, scheduling, and control of production of goods and delivery of services.
- Sustainable Manufacturing Systems Lab (Dr. Hungda Wan): Evaluation and enhancement of sustainability of manufacturing systems in three major areas: Lean Operations, Digital Factory, and Green Processes.
- Hard Tissue Biomechanics Laboratory (Dr. Xiaodu Wang): Elucidating the nanomechanics and ultrastructural origins of bone fragility, thus improving prediction and prevention of aging and disease induced bone fragility fractures.
Multiscale Computational Mechanics Laboratory (Dr. Xiaowei Zeng): Developing multiscale computational methodologies in understanding of materials response.