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T J Richards
4 points · 39 lecture hours and 26 laboratory/tutorial hours · First semester, Gippsland · Second semester, Gippsland/Distance · Prerequisites: GEG2723
Objectives (1) To enable the student to handle advanced problems in mechanics of materials and experimental stress analysis and (2) to equip the student with some knowledge in the area of theory of plasticity and its application.
Synopsis Deflection using strain energy. Stresses in thick-walled cylinders due to internal and external pressures. Stresses in rotating discs. Contact stresses. Experimental stress analysis including strain gauging and photo-elasticity. Inelastic bending and torsion. Residual stresses. Plasticity of metals with application including evaluations of forces required in some applications such as rolling of metal strips, extrusion, tube sinking, etc.
Assessment Examination: 60% · Laboratory: 15% · Assignments: 25%
Prescribed texts
Hearn E J Mechanics of materials vols 1 and 2, 3rd edn, Butterworth Heinemann, 1997
Back to the 1999 Engineering Handbook
wwwdev@monash.edu.au
Tue Jul 13 11:18:30 EST 1999