Failure of Materials in Mechanical Design: Analysis, Prediction, Prevention, 2nd EditionISBN: 978-0-471-55891-0
Hardcover
672 pages
October 1993
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The Role of Failure Prevention Analysis in Mechanical Design.
Modes of Mechanical Failure.
Strength and Deformation of Engineering Metals.
State of Stress.
Relationships Between Stress and Strain.
Combined Stress Theories of Failure and Their Use in Design.
High-Cycle Fatigue.
Concepts of Cumulative Damage, Life Prediction, and FractureControl.
Use of Statistics in Fatigue Analysis.
Fatigue Testing Procedures and Statistical Interpretations ofData.
Low-Cycle Fatigue.
Stress Concentration.
Creep, Stress Rupture, and Fatigue.
Fretting, Fretting Fatigue, and Fretting Wear.
Shock and Impact.
Buckling and Instability.
Wear, Corrosion, and Other Important Failure Modes.
Index.
Modes of Mechanical Failure.
Strength and Deformation of Engineering Metals.
State of Stress.
Relationships Between Stress and Strain.
Combined Stress Theories of Failure and Their Use in Design.
High-Cycle Fatigue.
Concepts of Cumulative Damage, Life Prediction, and FractureControl.
Use of Statistics in Fatigue Analysis.
Fatigue Testing Procedures and Statistical Interpretations ofData.
Low-Cycle Fatigue.
Stress Concentration.
Creep, Stress Rupture, and Fatigue.
Fretting, Fretting Fatigue, and Fretting Wear.
Shock and Impact.
Buckling and Instability.
Wear, Corrosion, and Other Important Failure Modes.
Index.