Strength and fracture of engineering solids / David K. Felbeck and Anthony G. Atkins.

By: Felbeck, David K .

Contributor(s): Atkins, Anthony G, 1939-.

Material type: materialTypeLabel

BookPublisher: Englewood Cliffs, N.J. : Prentice-Hall, 1984Description: xiv, 542 p. : ill. ; 24 cm.ISBN: 0138517096 .Subject(s): Strength of materials

| Fracture mechanics

DDC classification: 620.112

Contents:

Engineering design with materials and the international system of units -- Traditional strength tests and mechanical processing -- Classes of properties of engineering materials -- Structure of solids -- Crystal imperfections and slip -- Pure elements -- Single phases -- Phase diagrams -- Multiple phases -- Martensites and tempered martensites -- Stainless and heat-resistant steels -- Rate- and temperature-dependent mechanical properties: creep and viscoelasticity -- Polymers and design with time-dependent solids -- Fracture -- Irons -- Ceramics and glasses -- Composites -- Fracture by gradual crack growth: fatigue and stress-corrosion cracking -- Failure analysis.

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General Lending	MTU Bishopstown Library Lending	620.112 (Browse shelf(Opens below))	1	Available		00035379

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Enhanced descriptions from Syndetics:

Offering a self-contained approach that develops topics from the simple to the complex throughout, this book combines a rigorous exposition of the fundamentals of the strength and toughness of engineering solids with practical applications to engineering problems. It provides extensive data on real materials and features accessible coverage of important new and developing topics not often presented at this level.

Includes bibliographical references and index.

Table of contents provided by Syndetics

1 Engineering Design with Materials, and the International System of Units
2 Traditional Strength Tests and Mechanical Processing
3 Classes of Properties of Engineering Materials
4 Structure of Solids
5 Crystal Imperfections and Slip
6 Pure Elements
7 Single Phases
8 Phase Diagrams
9 Multiple Phases
10 Martensites and Tempered Martensites
11 Stainless and Heat-Resistant Steels
12 Rate and Temperature-Dependent Mechanical Properties: Creep and Viscoelasticity
13 Polymers and Design with Time-Dependent Solids
14 Fracture
15 Cast Irons
16 Ceramics and Glasses
17 Composites
18 Fracture by Gradual Crack Growth: Fatigue and Stress-Corrosion Cracking
19 Failure Analysis
Appendix 1 Prefixes for Use with SI Units
Appendix 2 Factors for Conversion to SI Units
Appendix 3 Plastic Stress-Strain Constants for Metals
Appendix 4 Approximate Hardness Conversions for Metals
Appendix 5 Mechanical Property Ranges for Common Engineering Materials at