Fracture MechanicsNicholas Perrone |
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Page 307
... ceramic components . Stresses also arise as a result of the relatively low thermal conductivity of ceramic materials when these materials are cooled rapidly from high temperatures . Because fracture in ceramic materials always initiates ...
... ceramic components . Stresses also arise as a result of the relatively low thermal conductivity of ceramic materials when these materials are cooled rapidly from high temperatures . Because fracture in ceramic materials always initiates ...
Page 314
... ceramic materials . The principal physical characteristic of ceramic materials that determines their fracture behavior is the small size of the plastic zone at the tips of cracks . For many ceramic materials , convincing arguments can ...
... ceramic materials . The principal physical characteristic of ceramic materials that determines their fracture behavior is the small size of the plastic zone at the tips of cracks . For many ceramic materials , convincing arguments can ...
Page 315
... Ceramic Society . 18 Rice , R. W. , Fracture Mechanics of Ceramics , Vol . I , Plenum Press , New York , 1973 , pp . 323-345 19 Lawn , B. R. , and Wilshaw , T. R. , Fracture of Brittle Solids , Cambridge University Press , Cambridge ...
... Ceramic Society . 18 Rice , R. W. , Fracture Mechanics of Ceramics , Vol . I , Plenum Press , New York , 1973 , pp . 323-345 19 Lawn , B. R. , and Wilshaw , T. R. , Fracture of Brittle Solids , Cambridge University Press , Cambridge ...
Contents
Application of Fracture Control Technology in Navy | 3 |
NorthropUnited States Air Force Application of Failure | 17 |
Fracture Case Studies | 43 |
Copyright | |
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aircraft alloys analysis application of fracture ASTM behavior brittle fracture ceramic components crack arrest crack extension crack front crack growth rate crack initiation crack length crack propagation crack tip creep critical curve cycle cyclic decrease defects deformation determined developed ductile dynamic effects elastic elastic-plastic embrittlement energy release rate Engineering equation evaluation experimental failure fast fracture fatigue crack growth Fatigue Crack Propagation finite element flaw fracture control fracture mechanics fracture toughness function geometry increase inspection J-integral Kmax LEFM linear linear elastic liquid metal liquid metal embrittlement material method microstructure notch parameter plane strain plastic zone plate prediction pressure vessels problems proof test ratio region shear shown in Fig solution specimen static steel strain energy Stress Corrosion Cracking stress history stress intensity factor structural studies surface cracks techniques temperature tensile theory thickness tion ultrasonic weld yield strength Yokobori