录取要求

Candidates for admission should have an undergraduate degree in engineering, the physical sciences, or mathematics with a GPA of 2.75 or better.

申请材料清单

Application Fee ($75)

Fees are payable by credit card or electronic-check issued from a United States banking institution.

Application fee waiver may be requested by domestic applicants with financial need.

Unofficial copies of all transcripts

Transcripts must list the applicant’s name, name of the institution, and all grades received, in English.

Include full academic history – undergraduate and graduate transcripts

Three Letters of Recommendation

Input recommendation providers' names and email addresses. Recommendation providers are automatically sent an

email requesting a recommendation.

The recommendations must be posted by the published deadline for final application submission.

Statement of Purpose & Resume/CV

The Statement of Purpose should be a brief document explaining your goals and ambitions.

Current Resume or Curriculum Vitae is to be uploaded in the section immediately following the Statement of Purpose.

GRE Scores

GRE scores are required for all PhD and full-time Master’s applicants with the exception of applicants to the M. Eng. in

Biomedical Innovation degree program.

GRE scores are not required for applicants to part-time Master’s or the Bachelor’s/Master’s programs.

If submitting scores, applicants must report their official scores via ETS at the time of application submission for evaluation purposes. The WashU School Code is 6929.

TOEFL/IELTS

Required for all international applicants.

We only accept paper copies of the official IELTS score report sent to our institution; electronic copies are not accepted. The address is:

WashU School of Engineering & Applied Science

Attention: Graduate Admissions

1 Brookings Drive, CB 1220

St. Louis, MO 63130

Note: This requirement may be waived if the applicant has a minimum of three years of documented study at an

English-speaking institution, in a country where English is the primary language of daily living. Based on the evaluation

of your application package, we retain the right to require English testing upon arrival and you may be required to take

additional English classes. If you are recommended to take English classes, the cost of the courses will be your

专业介绍

The Master of Engineering in Mechanical Engineering is a one to two-year program offered by the Department of

Mechanical Engineering & Materials Science of Washington University in St. Louis. The program is especially tailored for: 

1) individuals who plan to change careers and enter the ME profession; 

2) international students seeking to establish U.S. credentials in the ME profession, and 

3) current professionals working in mechanical engineering who wish to advance their skills and education. 

A distinctive feature of the program is the ability to customize the course content to meet specific individual needs.

推荐课程

• E37 MEMS 500 Independent Study
• E37 MEMS 5001 Optimization Methods in Engineering
• E37 MEMS 501 Graduate Seminar
• E37 MEMS 5101 Analysis and Design of Fluid-Power Systems
• E37 MEMS 5102 Materials Selection in Design
• E37 MEMS 5104 CAE-Driven Mechanical Design
• E37 MEMS 5301 Nonlinear Vibrations
• E37 MEMS 5302 Theory of Vibrations
• E37 MEMS 5401 General Thermodynamics
• E37 MEMS 5402 Radiation Heat Transfer
• E37 MEMS 5403 Conduction and Convection Heat Transfer
• E37 MEMS 5404 Combustion Phenomena
• E37 MEMS 5410 Fluid Dynamics I
• E37 MEMS 5411 Fluid Dynamics II
• E37 MEMS 5412 Computational Fluid Dynamics
• E37 MEMS 5413 Advanced Computational Fluid Dynamics
• E37 MEMS 5414 Aeroelasticity and Flow-Induced Vibrations
• E37 MEMS 5416 Turbulence
• E37 MEMS 5420 HVAC Analysis and Design I
• E37 MEMS 5421 HVAC Analysis and Design II
• E37 MEMS 5422 Solar Energy Thermal Processes
• E37 MEMS 5423 Sustainable Environmental Building Systems
• E37 MEMS 5424 Thermo-Fluid Modeling of Renewable Energy Systems
• E37 MEMS 5500 Elasticity
• E37 MEMS 5501 Mechanics of Continua
• E37 MEMS 5502 Plates and Shells
• E37 MEMS 5504 Fracture Mechanics
• E37 MEMS 5506 Experimental Methods in Solid Mechanics
• E37 MEMS 5507 Fatigue and Fracture Analysis
• E37 MEMS 5510 Finite Element Analysis
• E37 MEMS 5515 Numerical Simulation in Solid Mechanics I
• E37 MEMS 5516 Numerical Simulation in Solid Mechanics II
• E37 MEMS 5520 Advanced Analytical Mechanics
• E37 MEMS 5560 Interfaces and Attachments in Natural and Engineered Structures
• E37 MEMS 5561 Mechanics of Cell Motility
• E37 MEMS 5562 Cardiovascular Mechanics
• E37 MEMS 5564 Orthopaedic Biomechanics-Cartilage/Tendon
• E37 MEMS 5565 Mechanobiology of Cells and Matrices
• E37 MEMS 5601 Mechanical Behavior of Materials
• E37 MEMS 5602 Non-metallics
• E37 MEMS 5603 Materials Characterization Techniques I
• E37 MEMS 5604 Materials Characterization Techniques II
• E37 MEMS 5605 Mechanical Behavior of Composites
• E37 MEMS 5606 Soft Nanomaterials
• E37 MEMS 5607 Introduction to Polymer Blends and Composites
• E37 MEMS 5608 Introduction to Polymer Science and Engineering
• E37 MEMS 5609 Electronic Materials Processing
• E37 MEMS 5610 Quantitative Materials Science and Engineering
• E37 MEMS 5611 Principles and Methods of Micro and Nanofabrication
• E37 MEMS 5612 Atomistic Modeling of Materials
• E37 MEMS 5700 Aerodynamics
• E37 MEMS 5701 Aerospace Propulsion
• E37 MEMS 5703 Analysis of Rotary-Wing Systems
• E37 MEMS 5704 Aircraft Structures
• E37 MEMS 5705 Wind Energy Systems
• E37 MEMS 5801 Micro-Electro-Mechanical Systems I
• E37 MEMS 5804 Engineering Project Management
• E37 MEMS 5912 Biomechanics Journal Club
• E37 MEMS 597 MEMS Research Rotation
• E37 MEMS 598 Energy Design Project
• E37 MEMS 599 Master's Research
• E37 MEMS 600 Doctoral Research
• E37 MEMS 883 Master's Continuing Student Status