Elasticity and Plasticity

This volume comprises two classic essays on the mathematical theories of elasticity and plasticity by authorities in this area of engineering science. Undergraduate and graduate students in engineering as well as professional engineers will find these works excellent texts and references.
The Mathematical Theory of Elasticity covers plane stress and plane strain in the isotropic medium, holes and fillets of assignable shapes, approximate conformal mapping, reinforcement of holes, mixed boundary value problems, the third fundamental problem in two dimensions, eigensolutions for plane and axisymmetric states, anisotropic elasticity, thermal stress, elastic waves induced by thermal shock, three-dimensional contact problems, wave propagation, traveling loads and sources of disturbance, diffraction, and pulse propagation. The Mathematical Theory of Plasticity explores the theory of perfectly plastic solids, the theory of strain-hardening plastic solids, piecewise linear plasticity, minimum principles of plasticity, bending of a circular plate, and other problems.
non-fiction; teaching mathematics; mathematics; elasticity and plasticity; mathematical theory of elasticity; mathematical theory; covers plane; assignable shapes; conformal mapping; boundary value; eigensolutions for plane and axisymmetric states; anisotropic elasticity; thermal stress; elastic waves induced by thermal shock; science and math; theoretical; complex, Elasticity; Plane Stress; Anisotropic Elasticity; Plasticity; Thermal Stress; Wave Propagation