Utilize advanced techniques to evaluate structures. Advanced analysis is necessary for structures that are complex, exhibit finite deformations, are loaded beyond their first yield point, or ...

In the not too distant future, an integrated multiscale analysis system for the design of a reliable engineering structure to sustain harsh environmental conditions within a predetermined lifetime may ...

Integral abutment bridges, Finite element modeling of structures, and the study of the behavior of bridges through data collection and data analysis. Susan Faraji, Ph.D., has four decades of teaching, ...

The Structural Engineering and Structural Mechanics (SESM) research area teaches and perform research on mechanics of solids, mechanics of structures, and structural engineering. Our research spans ...

Research in mechanics of solids mainly includes fundamental theory (elasticity, plasticity, variational principles, fatigue and fracture of materials and structures,and inelastic constitutive ...

Mechanical engineering is one of the most diverse branches of engineering, and it involves the design and analysis of machines, structures, and materials by applying the principles of physics and ...

Theory of elasticity: elastic stability, principal of minimum potential energy, Raylegh-Ritz methods. Introduction to finite element methods of stress analysis: computer implementation and use of ...

Learn to address the likelihood of structural failure. Perform risk analysis associated with environmental loads to structures under static and dynamic loadings. Master the basics of performance-based ...

From rockets to robots, power plants to biomechanical parts, mechanical engineers put both energy and machines to work. Wherever there is motion or energy, mechanical engineers have played a role in ...