Product Details
Author: Jon L. Dossett
[size=0.93em]This book describes the basic principles of heat-treating technology in clear, concise, and practical terms for students, emerging professionals, production personnel, and manufacturing or design engineers. It is an excellent resource and introductory guide on the practical “whys and therefore” of heat treatment—including the tips and useful look-up information of a perennial reference book. With in-depth and comprehensive coverage, this book details many practical implications of heat treatment in terms of material and process selection and structure and property development, with insights on doing it right or more reliably. [size=0.93em]
Derived from the author’s decades of experience and familiarity with many of the publications and educational and programming products of ASM International, each chapter is amply illustrated with charts and supported by current or classic references for background or further reading. This thorough and practical coverage on the basic principles of heat treating will be a useful, attractive, and important addition to the bookshelf of anyone with an interest in heat treating. [size=0.93em]
Chapters detail the basic metallurgy of heat treatment and the microstructural effects of heat treat processes on the major types of steels and nonferrous alloys. Extensive coverage is given to the reliable, effective, and cost-conscious heat treatment of carbon and low-alloy steels. Tool steels and stainless steels are also covered, along with a chapter that outlines the basic principles in heat treating aluminum alloys, titanium alloys, nickel alloys, magnesium alloys, and others. [size=0.93em]
Contents [size=0.93em]Chapter 1 Structure of Metals and Alloys
Atomic Bonding and Crystal Structures
Crystal Imperfections and Plastic Deformation
Crystalline Structure of Metals
Grains and Grain Boundaries
Diffusion
Solid Solutions
Equilibrium Phase Diagrams
Using Equilibrium Phase Diagrams
Chapter 2 Fundamentals of Steel Heat Treatment
Introduction
Constitution of Iron
Phases of Heat-Treated Steel
Chapter 3 Transformation of Austenite and Quenching of Steel
Isothermal Transformation Diagrams
Continuous Cooling Diagrams
Quenching of Steel
Mechanism of Quenching
Quenching Process Variables
Residual Stress and Distortion
Quench Cracking
Chapter 4 Hardness and Hardenability of Steels
Introduction
Jominy End-Quench Testing
Hardenability Correlation Curves
Jominy Equivalence Charts
Factors Affecting Hardenability
Hardenability Limits and H Steels
Chapter 5 Classification of Carbon and Low-Alloy Steels
Residual Element
Carbon Steels
Low-Alloy Steels
Mechanical Properties and Grain Size
Chapter 6 Annealing of Metals and Normalizing Steel
Recovery, Recrystallization, and Grain Growth
Subcritical Annealing of Steel
Critical-Range Annealing of Steel
Full Annealing of Steel
Isothermal Annealing
Annealing for Microstructure
Solution or Quench Annealing
Decarburization and Scaling
Normalizing
Furnaces
Chapter 7 Hardening and Tempering of Steel
Austenitizing
Hardening
Quenching Systems
Other Quenching Techniques
Difficulties Associated with Hardening of Steel
Tempering
Equipment for Tempering
Principle Tempering Variables
Embrittlement from Tempering
Multiple Tempering
Protective-Atmosphere Tempering
Selective Tempering
Selection of Tempering Temperature
Precipitation Hardening
Chapter 8 Heat Treatment of Carbon and Low Alloy Steels
Carbon Steel Classification for Heat Treating
Tempering of Quenched Carbon Steels
Austempering
Carbon Steel Heat Treating Practices
Low-Alloy Steels
Low-Alloy Steel Heat Treating Practices
Air-Hardening Steels
Case Hardening
Chapter 9 Heat Treatment of Stainless Steels
Composition and Classification
Heat Treat Processes
Wrought Ferritic Stainless Steels
Wrought Austenitic Stainless Steels
Wrought Duplex Stainless Steels
Wrought Martensitic Stainless Steels
Wrought Precipitation-Hardening Stainless Steels
Special Considerations for Stainless Steel Castings
Chapter 10 Heat Treatment of Tool Steels
Classification of Tool Steels
Principles and Processes of Tool Steel Heat Treating
Normalizing and Annealing
Distortion
Unalloyed and Low-Alloy cold-work tool steels
Medium and High–Alloy Cold Work Tool Steels
Class P: Plastic Mold Steels
Class H: Hot Work Steels
Class M and T: High-Speed Tool Steels
18% Nickel Maraging Steels
Chapter 11 Heat Treatment of Cast Irons
General Considerations
Stress Relief
Annealing
Normalizing
Through Hardening and Tempering
Surface Hardening of Cast Irons
Chapter 12 Heat Treatment of Non-Ferrous Alloys
Annealing of Cold-Worked Metals
Precipitation Hardening
Aluminum Alloys
Cobalt Alloys
Copper Alloys
Magnesium Alloys
Nickel Alloys
Titanium Alloys
Other Nonferrous Alloys (Silver, Gold, Lead, Tin) - Publisher: ASM International
- Published: 2020
- Pages: Approx. 375
- ISBN: 9781627083249
尊重知识产权!支持正版!
热处理论坛仅提供资料介绍,如有需要请至各大新华书店购买
或至网上书店
网上书店地址
|