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101 0 $aeng
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181   $ctxt$2rdacontent
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200 10$aModern physical metallurgy and materials engineering $escience, process, applications /$fR.E. Smallman, R.J. Bishop
205   $aSixth edition
210   $aBoston $cButterworth-Heinemann$d1999
215   $a1 online resource (449 pages)
300   $aDescription based upon print version of record.
311 1 $a0-7506-4564-4 
311 1 $a9780750645645 
320   $aIncludes bibliographical references and index.
327   $aFront Cover; Modern Physical Metallurgy and Materials Engineering: Science, process, applications; Copyright Page; Contents; Preface; Chapter 1. The structure and bonding of atoms; 1.1 The realm of materials science; 1.2 The free atom; 1.3 The Periodic Table; 1.4 Interatomic bonding in materials; 1.5 Bonding and energy levels; Chapter 2. Atomic arrangements in materials; 2.1 The concept of ordering; 2.2 Crystal lattices and structures; 2.3 Crystal directions and planes; 2.4 Stereographic projection; 2.5 Selected crystal structures; 2.6 Inorganic glasses; 2.7 Polymeric structures
327   $aChapter 3. Structural phases their formation and transitions; 3.1 Crystallization from the melt; 3.2 Principles and applications of phase diagrams; 3.3 Principles of alloy theory; 3.4 The mechanism of phase changes; Chapter 4. Defects in solids; 4.1 Types of imperfection; 4.2 Point defects; 4.3 Line defects; 4.4 Planar defects; 4.5 Volume defects; 4.6 Defect behaviour in some real materials; 4.7 Stability of defects; Chapter 5. The characterization of materials; 5.1 Tools of characterization; 5.2 Light microscopy; 5.3 X-ray diffraction analysis; 5.4 Analytical electron microscopy
327   $a5.5 Observation of defects5.6 Specialized bombardment techniques; 5.7 Thermal analysis; Chapter 6. The physical properties of materials; 6.1 Introduction; 6.2 Density; 6.3 Thermal properties; 6.4 Diffusion; 6.5 Anelasticity and internal friction; 6.6 Ordering in alloys; 6.7 Electrical properties; 6.8 Magnetic properties; 6.9 Dielectric materials; 6.10 Optical properties; Chapter 7. Mechanical behaviour of materials; 7.1 Mechanical testing procedures; 7.2 Elastic deformation; 7.3 Plastic deformation; 7.4 Dislocation behaviour during plastic deformation; 7.5 Mechanical twinning
327   $a7.6 Strengthening and hardening mechanisms7.7 Macroscopic plasticity; 7.8 Annealing; 7.9 Metallic creep; 7.10 Deformation mechanism maps; 7.11 Metallic fatigue; Chapter 8. Strengthening and toughening; 8.1 Introduction; 8.2 Strengthening of non-ferrous alloys by heat-treatment; 8.3 Strengthening of steels by; 8.4 Fracture and toughness; Chapter 9. Modern alloy developments; 9.1 Introduction; 9.2 Commercial steels; 9.3 Cast irons; 9.4 Superalloys; 9.5 Titanium alloys; 9.6 Structural intermetallic compounds; 9.7 Aluminium alloys; Chapter 10. Ceramics and glasses; 10.1 Classification of ceramics
327   $a10.2 General properties of ceramics10.3 Production of ceramic powders; 10.4 Selected engineering ceramics; 10.5 Aspects of glass technology; 10.6 The time-dependency of strength in ceramics and glasses; Chapter 11. Plastics and composites; 11.1 Utilization of polymeric materials; 11.2 Behaviour of plastics during processing; 11.3 Fibre-reinforced composite materials; Chapter 12. Corrosion and surface engineering; 12.1 The engineering importance of surfaces; 12.2 Metallic corrosion; 12.3 Surface engineering; Chapter 13. Biomaterials; 13.1 Introduction; 13.2 Requirements for biomaterials
327   $a13.3 Dental materials
330   $aFor many years, various editions of Smallman's Modern Physical Metallurgy have served throughout the world as a standard undergraduate textbook on metals and alloys. In 1995, it was rewritten and enlarged to encompass the related subject of materials science and engineering and appeared under the title Metals & Materials: Science, Processes, Applications offering a comprehensive amount of a much wider range of engineering materials. Coverage ranged from pure elements to superalloys, from glasses to engineering ceramics, and from everyday plastics to in situ composites, Amongst other favourable
606   $aPhysical metallurgy
606   $aMaterials science
606   $aCičncia dels materials$2lemac
606   $aMetal·lúrgia física$2lemac
615  0$aPhysical metallurgy.
615  0$aMaterials science.
615  7$aCičncia dels materials
615  7$aMetal·lúrgia física
676   $a669/.9
700   $aSmallman$b R. E.$0627326
702   $aBishop$b R. J$g(Ray J.),
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906   $aBOOK
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996   $aModern physical metallurgy and materials engineering$91213493
997   $aUNINA