Recent advances in computational solid mechanics with computer-based algorithms have revolutionized the ability to simulate intelligently both linear and nonlinear structural phenomena. The engineering of advanced materials requires expertise ranging from stress analysis to materials science. Due to this diversity, the program is interdisciplinary in nature with contributions from the Chemical, Civil and Environmental, and Mechanical Engineering graduate programs. It also prepares students for continued study in the Doctor of Engineering program.
Two areas of specialization are available:
- Structural Mechanics
- Mechanics and Materials
The Structural Mechanics track considers analytical and computational approaches to mechanics and materials. It emphasizes numerical formulations and computer simulations of basic structural and material phenomena from a stress/ strain viewpoint. The Mechanics and Materials track concentrates on the material science aspects of materials, including the laboratory testing and development and investigation of new engineered materials. All students must complete a common set of core courses specified.