METALLURGY
Recommended for reference:
Cottrell A H The Mechanical Properties of Matter, Wiley Dieter G E Mechanical Metallurgy, McGraw-Hill
Feltham P Deformation and Strength of Materials, Butterworth Jaeger J C Elasticity, Fracture and Flow, Methuen
Johnson W & Mellог P B. Plasticity for Mechanical Engineers, Van Nos- trend 1962
McLintock F A & Argon A S Mechanical Behaviour of Materials, Addi- son-Wesley
Polakowskl N H & Ripling E J 'Strength and Structure of Engineering Materials, Prentice-Hall
EXAMINATION One 3-hour paper.
All work done in connection with practical work and practice classes will be taken into account in assessing the results of the year's work in con- junction with the results of the Annual Examination. All records made during the year should be retained for submission if required in connection with the Annuai Examination.
METALLURGY
Recommended for reference:
Eighth Commonwealth Mining and Metallurgical Congress 1965 Publica- tiina Vol III The Australian lining, Metallurgical and Mineral Industries
Gaudin A M Principles of Mineral Dressing, McGraw-Hill Dennis W H Extractive Metallurgy, Pitman
Szekely J & Themeils N J Rate Phenomena In Process Metallurgy, Wiley Interscience 1971
Butts A Metallurgical Problems, 2nd ed McGraw-Hill Barrett C S Structure of Metals, 2nd ed McGraw-Hill
Brick R M Gordon R B & Phillips A Structure and Property of Alloys, 3rd ed McGraw-Hill 1965
Chalmers B Principles of Solidification, Wiley Cottrell A H Mechanical Properties of Matter, Wiley
Cottrell A H Theoretical Structural Metallurgy, 2nd ed Arnold Dieter G Mechanical Metallurgy, McGraw-Hill
Fast J D Entropy, Philips
Faltham P Deformation and Strength of Materials, Butterworth 1966 Gifkins R C Optical Metallography of Metals, Pitmans 1970 Guy A G Elements of Physical Metallurgy, 2nd ed Addison-Wesley Hutchinson T S & Baird D C The Physics of Engineering Solids, Wiley
1963
Hull D Introduction to Dislocations, Pergamon 1965
Hume-Rothery W Smallmаn R E & Haworth C W The Strйcture of Metals and Alloys, 6th ed Metals & Metallurgy Trust 1969
Kehl G I Principles of Metallographic Laboratory Practice, McGraw-Hill Kelly A & Groves G W Crystallography and Crystal Defects, Longmans
1970
Kingery W D Introduction to Ceramics, Wiley 1960 Kattel C Elementary Solid State Physics, Wiley 1962 Reed-Hill R E Physical Metallurgy Principles, Van Nostrand
Samuels L E Metallographic Polishing by Mechanical Methods, Pitman 1967
Shewmon P C Transformations in Metals, McGraw-Hill 1969 Smallmаn R E Modern Physical Metallurgy, Butterwortha 1962 Smallmаn R E& Ashbee K H G Modern Metallography, Pergamen Taylor A X-Ray Metallography, Wiley 1981
Tegart W J McG Elements of Mechanical Metallurgy, Collier-MacmlIlan Van Vlack L H . Elements of Materials Science, 2nd ed Addison-Wesley
1984
Wert C A & Thompson R M Physics of Solids, 2nd ed McGraw-HilI Winegard W C An Introduction to the Soliдification of Metals, Institute
of Metals 1984
Wulff J ed The Structure and Properties of Materials, Vol III Hayden H W Moffat W G & Wulff J Mechanical Behaviour, Wiley 300 LEVEL
301 MINERAL PROCESSING
A course of 24 lectures, 12 hours of practice classes and 24 hours practical work.
SYLLABUS Objectives of mineral processing. Phases in processing sys- tems; interfaces; Interfacial energy. Elements of size reduction; brittle fracture. Characteristics of particulate solids; mineral suspensions. Some 189
METALLURGY
principles underlying gravity concentration. Aspects of electrical concen- tration. Interfacial relationships in three-phase systems; alteration of interfacial energy relationships. Kinetic aspects of, and probability con- siderations in, processing.
PRACTICE CLASSES AND PRACTICAL WORK These relate to the syllabus.
BOOKS
Selected from the composite list at the end of the 300 level units.
EXAMINATION Tests throughout the year and one 3-hour paper for pass and honours. All work done in connection with practice classes and practical work will be taken into account in assessing the results of the annual examination. All records made during the year should be retained for submission if required in connection with the annual examination.
302 CHEMICAL METALLURGY
A course of 24 lectures, 12 hours of practice classes and 24 hours practical work.
SYLLABUS Physical chemistry of metal extraction and refining. Application of physico-chemical methods to metallurgical reactions. Equilibria in re- duction of metallic oxides; stability and phase relations of oxides. Stability of sulphides; matte smelting; properties of metal-sulphur-oxygen systems.
Slag-metal equilibria; properties of liquid slags and molten salts; solu- tions in liquid iron. Gases In metals. Electrochemistry of production and refining of metals.
PRACTICAL CLASSES AND PRACTICAL WORK These relate to the syllabus.
BOOKS
Selected from the composite list at the end of the 300 level units.
EXAMINATION Tests throughout the year and one 3-hour paper for pass and honours. All work done in connection with practice classes and practical work will be taken into account in assessing the results of the annual examination. All records made during the year should be retained for submission if required in connection with the annual examination.
303 PHYSICAL METALLURGY
A course of 24 lectures, 1'2 hours of practice classes and 24 hours practical work.
SYLLABUS The development of microstructure through deformation, solidification, solid-state precipitation and eutectoid decomposition. The effects of mechanical shaping on structure and properties; the control of grain size and texture, the role of non-metallic inclusions. The design and control of microstructures to achieve particular properties.
BOOKS
Selected from the composite list at the end of the 300 level units.
EXAMINATION Tests throughout the year and one 3-hour paper for pass and honours. All work done in connection with practice classes and practical work will be taken into account in assessing the results of the annual examination. All records made during the year should be retained for submission if required in connection with the annual examination.
190
METALLURGY