Mechanical Behavior of Materials |
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Page 16
... ( Chap . 3 ) , high - temperature deformation ( Chap . 7 ) , and the flow of amorphous solids ( Chap . 8 ) . For the present we simply note that the strain - rate sensitivity of the flow stress is often adequately represented by the ...
... ( Chap . 3 ) , high - temperature deformation ( Chap . 7 ) , and the flow of amorphous solids ( Chap . 8 ) . For the present we simply note that the strain - rate sensitivity of the flow stress is often adequately represented by the ...
Page 381
... Chap . 11 . Fracture of the type considered in this and in the following chapter can take place under loading conditions other than those associated with simple tensile loads . However , since tensile forces act to open up , and hence ...
... Chap . 11 . Fracture of the type considered in this and in the following chapter can take place under loading conditions other than those associated with simple tensile loads . However , since tensile forces act to open up , and hence ...
Page 439
... Chap . 5 ( which lists typical values of k , ) , and by reasonably estimating E and 9 of typical bcc transition metals . Show that your results are consistent with the relative slopes of σ , and o , vs. d - 12 of Fig . 9.23 . 9.23 Show ...
... Chap . 5 ( which lists typical values of k , ) , and by reasonably estimating E and 9 of typical bcc transition metals . Show that your results are consistent with the relative slopes of σ , and o , vs. d - 12 of Fig . 9.23 . 9.23 Show ...
Contents
Yielding Under Multiaxial Loading Conditions | 17 |
F The Torsion Test | 32 |
2 | 42 |
Copyright | |
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alloys applied stress behavior brittle fracture Burgers vector ceramics Chap Coble creep composite crack growth crack tip craze creep fracture creep rate crystalline cubic cyclical decreases diffusion diffusional discussed dislocation density dislocation motion displacement ductile ductile fracture edge dislocation effect embrittlement energy fatigue fiber FIGURE flow stress fracture mechanism fracture modes fracture toughness glass grain boundaries greater hardening high-temperature illustrated in Fig increases initial interaction length linear elastic low temperatures martensite material material's matrix metals microscopic MN/m² Mode II fracture modulus nucleation obstacles occurs particle phase plastic deformation plastic flow plastic strain polycrystal polymers precipitation processes region result schematically screw dislocation shear stress shown in Fig single crystals slip plane slip systems solid solute atom Stage steel strain rate strengthening stress levels stress-strain curve structure superplastic surface takes place TCRSS tensile axis tensile strength tensile stress transition values void growth volume fraction yield strength