The graduate program in Structural Materials enables those conducting research in CeMMaS to acquire the majority of the requisite skills, ranging from the fundamentals of materials science, through mechanical behavior, solid mechanics and numerical methods (such as finite elements). Additional topics of relevance include fluid mechanics, thermal sciences, control and optimization.
The following table shows several typical course sequences of interest to students in the program
FALL
WINTER
SPRING
Thermodynamic Foundation of Materials (MTRL 200A)
Electronic and Atomic Structure of Materials (MTRL 200B)
Structure Evolution in Materials (MTRL 200C)
Mechanics of Materials (MTRL 207/ME 219)
Mechanical Behavior of Materials (MTRL 220/ME 264)
Fracture Mechanics (MTRL 234/ME 275)
Finite Element Structure Analysis (MTRL 240/ME 271)
Elasticity (MTRL 230/ME 230)
Plasticity (MTRL 232/ME 232)
Composite Materials (MTRL 261/ME 265)
Thin Films and Multilayers (MTRL 263)
Computational Materials (MTRL 228)
Crystallography and Diffraction Fundamentals (MTRL 209A)
X-Ray Diffraction I: Principles and Practice (MTRL 209BL)
Electron Microscopy I: Principles and Practice (MTRL 209CL)