2.076[J] Mechanics of Heterogeneous Materials


Class Info

Mechanical behavior of heterogeneous materials such as thin-film microelectro- mechanical systems (MEMS) materials and advanced filamentary composites, with particular emphasis on laminated structural configurations. Anisotropic and crystallographic elasticity formulations. Structure, properties and mechanics of constituents such as films, substrates, active materials, fibers, and matrices including nano- and micro-scale constituents. Effective properties from constituent properties. Classical laminated plate theory for modeling structural behavior including extrinsic and intrinsic strains and stresses such as environmental effects. Introduction to buckling of plates and nonlinear (deformations) plate theory. Other issues in modeling heterogeneous materials such as fracture/failure of laminated structures.

This class has 2.002, 3.032, and 16.20 as prerequisites.

2.076[J] will not be offered this semester. It will be instructed by S-G. Kim and B. L. Wardle.

This class counts for a total of 12 credits. This is a graduate-level class.

In the Fall 2015 Subject Evaluations, 2.076[J] was rated 6.6 out of 7.0. You can find more information at the Mechanical Engineering (Course 2) < MIT site.

MIT 2.076[J] Mechanics of Heterogeneous Materials Related Textbooks
MIT 2.076[J] Mechanics of Heterogeneous Materials On The Web

© Copyright 2015