ASM Inteational, 1997, ISBN: 0871705966, Pages: 591
ASM Speciality Handbook
This latest handbook brings together in one volume a comprehensive reference source of information on engineering metallic and nonmetallic heat-resistant materials from carbon and alloy steels to refractory metals, and ceramics to carbon-carbon composites. The volume covers the complete spectrum of technology dealing with heat-resistant materials including high-temperature characteristics, effects of processing and microstructure on high-temperature properties, materials-selection guidelines for industrial applications, and life-assessment methods. Materials scientists, design engineers, engineering consultants, and others involved in the selection, design, and purchase of engineering materials for use in high-temperature applications in the thermal processing, petrochemical and chemical processing, aerospace, and power-generation industries will find this an invaluable reference.
Introduction
Elevated-Temperature Characteristics of Engineering Materials
Mechanical Properties at Elevated Temperatures
Corrosion at Elevated Temperatures
Industrial Applications of Heat-Resistant Materials
Properties of Ferrous Heat-Resistant Alloys
Elevated-Temperature Mechanical Properties of Carbon and Alloy Steels
Elevated-Temperature Mechanical Properties of Stainless Steels
Elevated-Temperature Corrosion Properties of Carbon and Alloy Steels
Elevated-Temperature Corrosion Properties of Stainless Steels
Alloy Cast Irons
High-Alloy Cast Steels
Properties of Superalloys
Metallurgy, Processing, and Properties of Superalloys
Directionally Solidified and Single-Crystal Superalloys
Powder Metallurgy Superalloys
Effect of Heat Treating on Superalloy Properties
Elevated-Temperature Corrosion Properties of Superalloys
Microstructural Degradation of Superalloys
Protective Coatings for Superalloys
Properties of Nonferrous Heat-Resistant Materials
Titanium and Titanium Alloys
Refractory Metals and Alloys
Nickel-Chromium and Nickel-Thoria Alloys
Structural Intermetallics
Structural Ceramics
Carbon-Carbon Composites
Special Topics
Assessment and Use of Creep-Rupture Data
Thermal and Thermomechanical Fatigue Structural Alloys
Elevated-Temperature Crack Growth of Structural Alloys
Creep-Fatigue Interaction
Design for Elevated-Temperature Applications
Design for Oxidation Resistance
ASM Speciality Handbook
This latest handbook brings together in one volume a comprehensive reference source of information on engineering metallic and nonmetallic heat-resistant materials from carbon and alloy steels to refractory metals, and ceramics to carbon-carbon composites. The volume covers the complete spectrum of technology dealing with heat-resistant materials including high-temperature characteristics, effects of processing and microstructure on high-temperature properties, materials-selection guidelines for industrial applications, and life-assessment methods. Materials scientists, design engineers, engineering consultants, and others involved in the selection, design, and purchase of engineering materials for use in high-temperature applications in the thermal processing, petrochemical and chemical processing, aerospace, and power-generation industries will find this an invaluable reference.
Introduction
Elevated-Temperature Characteristics of Engineering Materials
Mechanical Properties at Elevated Temperatures
Corrosion at Elevated Temperatures
Industrial Applications of Heat-Resistant Materials
Properties of Ferrous Heat-Resistant Alloys
Elevated-Temperature Mechanical Properties of Carbon and Alloy Steels
Elevated-Temperature Mechanical Properties of Stainless Steels
Elevated-Temperature Corrosion Properties of Carbon and Alloy Steels
Elevated-Temperature Corrosion Properties of Stainless Steels
Alloy Cast Irons
High-Alloy Cast Steels
Properties of Superalloys
Metallurgy, Processing, and Properties of Superalloys
Directionally Solidified and Single-Crystal Superalloys
Powder Metallurgy Superalloys
Effect of Heat Treating on Superalloy Properties
Elevated-Temperature Corrosion Properties of Superalloys
Microstructural Degradation of Superalloys
Protective Coatings for Superalloys
Properties of Nonferrous Heat-Resistant Materials
Titanium and Titanium Alloys
Refractory Metals and Alloys
Nickel-Chromium and Nickel-Thoria Alloys
Structural Intermetallics
Structural Ceramics
Carbon-Carbon Composites
Special Topics
Assessment and Use of Creep-Rupture Data
Thermal and Thermomechanical Fatigue Structural Alloys
Elevated-Temperature Crack Growth of Structural Alloys
Creep-Fatigue Interaction
Design for Elevated-Temperature Applications
Design for Oxidation Resistance