Published by Monash University, Australia
Maintained by wwwdev@monash.edu.au
Approved by R Chaffey, Faculty of Engineering
Copyright © Monash University 1997 - All Rights Reserved - Caution
4 points
* 2 lectures per week plus tutorials and
practical classes
* First semester
* Clayton
Objectives To develop an understanding of stress and elastic strain, an appreciation of the different mechanisms of heat transfer and their importance in materials processing.
Synopsis Normal and shear stress, stress and strain at a point. Mohr's circle in two dimensions. Stress on a plane of arbitrary orientation. Invariants of stress and strain. Equations of equilibrium and compatibility. Hooke's law. Superposition and St Venant's principle. Von Mises and Tresca theories of yield. Heat transfer by conduction, convection and radiation. Steady state conduction. Overall heat transfer coefficients. Non-steady state conduction: lumped systems, convection b.c.s, transient time - temperature charts. Finite difference methods. Convection: flow over bodies, liquid metal heat transfer. Radiation. Thermally induced residual stress. Casting and forging. Injection moulding of polymers. Hot rolling of steels.
Recommended texts
Reid C N Deformation geometry for material scientists
Pergamon, 1973
Dieter G E Mechanical metallurgy 3rd edn, McGraw-Hill, 1988
Poirier D and Geiger G Transport phenomona in materials engineering TMS,
1992
Reference
Holman J P Heat transfer McGraw-Hill, 1989
Ozisik M N Heat transfer: A basic approach McGraw-Hill, 1987
Published by Monash University, Australia
Maintained by wwwdev@monash.edu.au
Approved by R Chaffey, Faculty of Engineering
Copyright © Monash University 1997 - All Rights Reserved -
Caution