Mechanical Metallurgy SI Metric Edition
Author:George E. Dieter
Edition:1st Edition
Mechanical behavior of metals is analyzed through the relationship between stress, strain, and microstructural mechanisms. It explores elasticity, plastic deformation, dislocations, and strengthening processes, while also covering fracture, fatigue, creep, and testing methods, linking material properties to real-world forming and manufacturing operations.
Chapters
- Chapter 1: Introduction to Mechanical Metallurgy→
- Chapter 2: Elastic Stress & Strain Relationships→
- Chapter 3: Theory of Plasticity→
- Chapter 4: Plastic Deformation of Single Crystals→
- Chapter 5: Dislocation Theory→
- Chapter 6: Strengthening Mechanisms in Metals→
- Chapter 7: Fracture of Metals→
- Chapter 8: The Tension Test→
- Chapter 9: Hardness Testing Methods→
- Chapter 10: The Torsion Test→
- Chapter 11: Fracture Mechanics→
- Chapter 12: Fatigue of Metals→
- Chapter 13: Creep & Stress Rupture→
- Chapter 14: Brittle Fracture & Impact Testing→
- Chapter 15: Fundamentals of Metalworking→
- Chapter 16: Forging Processes→
- Chapter 17: Rolling of Metals→
- Chapter 18: Extrusion Processes→
- Chapter 19: Drawing of Rods, Wires & Tubes→
- Chapter 20: Sheet-Metal Forming→
- Chapter 21: Machining of Metals→
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