Engineering material science 2I
D Phelan
4 points * 36 lecture hours, 12 laboratory/tutorial hours * Second semester * Caulfield
Objectives To understand how materials deform and fail and to what extent performance can be improved by processing. To develop a broad understanding of property differences between materials within the same engineering grouping.
Synopsis Properties of alloy systems, material databases, deformation and fracture of metals, overview of arc welding techniques. Corrosion fundamentals: electrochemical considerations, passivity, cathodic protection. Flammability of polymers, behaviour of rubbers, adhesives and adhesive bonding. Manufacture and processing of polymers, laminates and composites: particle and fibre reinforcement, structural composites. Structure and properties of timber. Ceramics: ceramic structures, ceramic properties, processing of ceramics, glasses, clay products and concrete. Ferro magnetic hysteresis curves, magnetic hard and soft materials, semi-conductor materials.
Assessment Examination: 70% * Tutorial work: 30%
Recommended texts
Callister W D Material science and engineering 2nd edn, Wiley, 1991
Shackelford J F Introduction to materials science for engineers 2nd edn, 1990
Smith W W Principles of material science and engineering 2nd edn, 1990
Published by Monash University, Clayton, Victoria
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