Fracture of Structural Materials |
Contents
Conventional Design Concepts | 3 |
The Mechanics of Fracture | 38 |
Designing and Testing | 86 |
Copyright | |
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Common terms and phrases
alloys applied stress atoms austenite bainite behavior brittle Burgers vector carbon Chapter Charpy cleavage crack cleavage fracture cleavage plane corrosion crack growth crack nucleation crack propagation crack tip cross slip curve cycles cyclic decreases displacement ductility effect elastic embrittlement energy factor failure fatigue crack ferrite fibers fibrous flaw formation fracture occurs fracture stress fracture surface ft-lb glide grain boundary hence high strength hydrogen increases load low temperatures matrix maximum metals microcrack microscopic mild steel mode nucleation parameters particles pearlite perature plane-strain plastic deformation plastic strain plastic zone plate polycrystalline radius region screw dislocation shear stress shown in Fig single crystals slip bands slip plane stacking fault energy strain hardening strain rate strength materials stress concentration stress level structure tensile stress thickness tion toughness Trans transition temperature ture twinning unnotched unstable fracture voids Weld yield strength yield stress