Fracture of Structural Materials |
Contents
Conventional Design Concepts | 3 |
Problems | 36 |
Designing and Testing | 86 |
Copyright | |
13 other sections not shown
Other editions - View all
Common terms and phrases
addition alloys amount appearance atoms behavior brittle carbon cause Chapter Charpy cleavage composites concentration Consequently containing crack crack propagation crack tip creep critical crystals curve decreases depends determine develop direction dislocation displacement ductility effect elastic embrittlement energy factor failure fatigue ferrite fibers flaw formation fracture function given grain boundary greater hardening hence high strength hydrogen impact important increases indicates initiation iron lead length less load lower materials matrix maximum measured mechanical metals microcrack microscopic mode normal notch nucleation observed obtained occurs particles plane plastic deformation plate present produce properties range region relation root rupture shear shown in Fig shows slip solid specimen steel strain strength structure surface tear temperature tensile tensile stress thickness tion toughness Trans ture twinning unstable voids Weld yield yield strength yield stress York