MEE4331

Mechanics of solids 3

J W Burt

4 points · 24 lecture hours and 24 tutorial/laboratory hours · First semester · Caulfield · Prerequisites: MEE3332

Objectives The student is expected to acquire an insight into the solution of a range of problems using elasticity equations and finite element techniques.

Synopsis Analysis of stress and strain. Equations of equilibrium and compatibility in two and three dimensions, stress distribution in beams, compound thick cylinders, rotating discs, experimental techniques (strain gauges). Introduction to plasticity, plastic bending. Plastic deformation of thick cylinders. Introduction to matrix structural analysis and the finite element techniques of stress analysis. Introduction to fracture mechanics.

Assessment Examination (3 hours): 70% · Laboratory work, class test, problem solving: 30%

Recommended texts

Broek D Elementary engineering fracture mechanics Noordhoff, 1974
Budynas R G Advanced strength and applied stress analysis McGraw-Hill, 1977
Cook R D Concepts and application of finite element analysis 2nd edn, Wiley, 1981

Back to the 1999 Engineering Handbook