ASM Specialty Handbook : Carbon and Alloy Steels

Title: ASM Specialty Handbook : Carbon and Alloy Steels
Author: J.R. Davis
ISBN: 0871705575 / 9780871705570
Format: Hard Cover
Pages: 700
Publisher: ASM International
Year: 1995
Availability: In Stock

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Carbon and alloy steels are the workhorse of structural materials in modern engineering because of their very reasonable costs coupled with their many and varied properties that allow their use in such a large array of applications. It's very easy to take steel for granted and forget how much it's relied upon in critical uses such as cars, bridges, buildings, landing gear assemblies, and more.

It's what makes Carbon and Alloy Steels such an important work. The fourth in the ASM Specialty Handbook series, it places special emphasis on the processing and service characteristics of steel. You'll find detailed, yet practical information that will help you select the best grade for a particular environment or application. There are in-depth reviews on formability, weldability, machinability, and hardenability of the various steel grades. You'll also discover how adding certain alloys can significantly improve steel processing.

The strength and toughness section has been greatly expanded with more coverage than ever before of corrosion fatigue. You'll have access to extensive reports detailing which steels are more susceptible to environmental damage such as stress-corrosion and hydrogen embrittlement. Temperature effects relating to mechanical properties and corrosion are also discussed.

As a special feature, entirely new articles on steels for specific applications like bearings, gears, automotive, oil and gas pipelines, and more, are also discussed. Not only are material requirements covered, but applicable codes, standards, and specifications as well. You'll learn what problems and failures others have experienced and what you can do to avoid similar difficulties.

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Chapter 1 : General Introduction to Carbon and Alloy Steels
Chapter 2 : General Introduction to Carbon and Alloy Steels
Chapter 3 : Processing Characteristics
Chapter 4 : Sheet Formability of Steels
Chapter 5 : Bulk Workability of Steels
Chapter 6 : Machinability of Steels
Chapter 7 : Weldability of Steels
Chapter 8 : Hardenability of Steels
Chapter 9 : Service Characteristics
Chapter 10 : Wear Resistance of Steels
Chapter 11 : Elevated-Temperature Properties of Steels
Chapter 12 : Low-Temperature Properties of Steels
Chapter 13 : Fatigue Resistance of Steels
Chapter 14 : Notch Toughness of Steels
Chapter 15 : Fatigue and Fracture Mechanics Properties of Steels
Chapter 16 : Thermally Induced Embrittlement of Steels
Chapter 17 : Neutron Irradiation Damage of Steels
Chapter 18 : Properties of Weldments
Chapter 19 : Effects of Steel Processing on Properties
Chapter 20 : Microstructure/Property Relationships in Steels
Chapter 21 : Corrosion Behavior
Chapter 22 : Atmospheric Corrosion of Steels
Chapter 23 : Corrosion of Steels in Waters
Chapter 24 : Corrosion of Steels in Soils
Chapter 25 : Corrosion of Steels in Chemical Environments
Chapter 26 : Stress-Corrosion Cracking of Steels
Chapter 27 : Hydrogen Damage of Steel
Chapter 28 : Liquid-Metal and Solid-MetaEmbrittlement of Steels
Chapter 29 : Mechanically Assisted Corrosion of Steels
Chapter 30 : High-Temperature Corrosion of Steels
Chapter 31 : Protection of Steel from Corrosion
Chapter 32 : Material Requirements for Specific Applications
Chapter 33 : Steels for Rolling-Element Bearings
Chapter 34 : Steels for Gears
Chapter 35 : Steels for Springs
Chapter 36 : Steels for Threaded Fasteners
Chapter 37 : Steels for Automotive Applications
Chapter 38 : Steels for Aircraft and Aerospace Applications
Chapter 39 : Steels for Oil and Gas Pipelines
Chapter 40 : Steels for Coal-Fired Steam Power Plants
Chapter 41 : Steels for Buildings and Bridges
Chapter 42 : Steels for Ships and Offshore Structures
Chapter 43 : Steels for Railroad Equipment

Index