Structure and properties of engineering materials

Henkel & Pense, STRUCTURE & PROPERTIES OF ENGINEERING MATERIALS 5/e provides an updated look at various engineering materials, including metals, metal alloys, polymers, ceramics and composites. Best suited for a second-level materials course, or a first course focusing on structures & properties, the new edition outlines and describes how structural aspects of materials determine their use in engineering. Numerous photomicrographs, and other illustrations, are used to show the structural characteristics of various materials. Charts and tables are included throughout, and provide a good resource for materials selection referencing.Chapter problems and references have been revised and updated, and a Book Web Site is available for students and professors. Instructor's will also have access to password protected problem solutions.

1 Introductory Materials ConceptsChp 1.Structure and Properties1-1 Atomic Packing1-2 Crystal Structure1-3 Grain Structure1-4 Mechanical Properties and Testing1-5 Physical PropertiesChp 2.Deterioration of Material Properties2-1 Fracture in a Ductile Material2-2 Fracture in a Brittle Material2-3 Suppression of Brittle Fracture2-4 Linear Elastic Fracture Mechanics2-5 Property Deterioration2-6 Property Deterioration from Cyclic Loading2 Strengthening MechanismsChp 3.Solid-Solution Strengthening3-1 Formation of Solid Solutions3-2 Mechanism of Solidification3-3 Solidification of Pure Metals3-4 Solidification of Metal Alloys3-5 Diffusion3-6 Segregation in Metal Alloys3-7 Real Solid Solutions3-8 General Properties of Solid SolutionsChp 4.Deformation Hardening and Annealing4-1 Plasticity of Metals4-2 Property Changes in Deformation Hardened Metals4-3 Annealing4-4 Property Changes in Annealed MetalsChp 5.Multiphase Stregthening5-1 Binary Eutectics5-2 Intermetallic Compounds5-3 Multicomponent Eutectics5-4 Microstructure of Multiphase Materials5-5 Generalized Properties of Multiphase MaterialsChp 6.Precipitation Hardening6-1 General Mechanism of Precipitation Hardening6-2 Precipitation from Solid Solution6-3 Stages of Precipitation Hardening6-4 Variables Affecting Precipitation Hardening6-5 Prcippitation Hardening of Cu-Be AlloysChp 7.Martensitic Transformation7-1 The Fe-Fe3C Phase Diagram7-2 Alloys of Iron and Carbon7-3 Microstructure of Nonhardened Steel7-4 Heat Treatment of Eutectoid Steel7-5 The Martensite Transformation7-6 Heat Treatment of Noneutectoid Steel7-7 Physical Property Changes during Martensite Formation7-8 Tempering of Martensite7-9 Microstruture of Isothermally Transformed Steel7-10 Generalized Properties of Heat-Treated Steel3 Metallic Materials EngineeringChp 8.Low-Carbon Steels8-1 Terms Related to Steelmaking Processes8-2 Grain Size of Steel8-3 Nonhardenable Low-Carbon Steels8-4 High-Strength Low-Carbon Steel Chp 9. Medium Carbon Steels9-1 Classification of Medium Carbon Steels9-2 Hardening Carbon Steels9-3 Hardening Alloy Steels9-4 Ultra High-Strength SteelsChp 10.High Carbon Steels10-1 Classification of High-Carbon Steels10-2 Heat Treatment of High-Carbon Steels10-3 Cemented CarbidesChp 11.Stainless Steels11-1 Phase Diagrams of Stainless Steels11-2 Stainless Steel Alloy Designations11-3 Heat Treatment of High-Carbon Steels11-4 Mechanical Properties of Stainless Steels11-5 Corrosion Resistance of Stainless SteelsChp 12.Cast Irons12-1 Cast Iron (Fe-C-Si)Phase Diagram12-2 Gray Cast Iron Solidification12-3 Ductile Cast Iron Solidification12-4 Concepts of Graphitization in Cast Iron12-5 Properties of Cast IronChp 13.Aluminum Alloys13-1 Work Hardenable Wrought Aluminnum Alloys13-2 Heat Treatable Aluminum Alloys13-3 Cast Aluminum Alloys13-4 Residual Stresses in Aluminum Alloys13-5 Alumminum-Lithium AlloysChp 14.Copper and Copper Alloys14-1 Copper Alloy Designations14-2 Unalloyed Coppers14-3 Brasses:Cu-Zn Alloys14-4 Tin Bronzes: Cu-Sn Alloys14-5 Silicon and Aluminum Bronzes14-6 Cast Copper-Based AlloysChp 15.Magnesium Alloys15-1 Magnesium Alloy Designations15-2 The Nature of Magnesium Alloying15-3 Cast Magnesium Alloys15-4 Properties of Magnesium AlloysChp 16.Titanium Alloys16-1 Unalloyed Titanium16-2 Phase Diagrams of Titanium Alloys16-3 Heat Treatment of Titanium Alloys16-4 Properties of Titanium Alloys16-5 Applications of Titanium AlloysChp 17.Metals for High-Temperature Service17-1 High-Temperature Performance of Refractory Metals17-2 Nickel and Iron Based Superalloys17-3 Cobalt Based Superalloys17-4 Vanadium, Niobium, and Tantalum17-5 Chromium, Molybdenum,and Tungsten17-6 Refractory Metal Coatings4 Nonmetallic Materials and Composites EngineeringChp 18.Engineering Polymers18-1 Bonding and Structure in Polymers18-2 Generalized Properties of Polymers18-3 Olefin, Vinyl, and Related Polymers18-4 Thermoplastic Polymers18-5 Thermosetting Polymers18-6 Elastomeric PolymersChp 19.Ceramics and Glasses19-1 A Ceramic Phase Diagram (A12O3-SIO2)19-2 Traditional Ceramics: Clay, Refractories, and Abrasives19-3 Structure and Properties of Engineering Ceramics19-4 Characteristics Of GlassChp 20.Composite Materials20-1 Forms and Properties of Composite Reinforcing Materials20-2 Forms and Properties of Composite Matrix Materials20-3 Metal Matrix Composites20-4 Polymer Matrix Composites20-5 Ceramic Matrix Composites20-6 Carbon and Graphite Composites