期刊
PROCEEDINGS OF THE ROYAL SOCIETY A-MATHEMATICAL PHYSICAL AND ENGINEERING SCIENCES
卷 460, 期 2043, 页码 757-780出版社
ROYAL SOC
DOI: 10.1098/rspa.2003.1181
关键词
dislocation plasticity; metal fatigue; nonlinearity parameter; substructural organization
Organized substructural arrangements of dislocations formed in wavy slip, face-centred-cubic metals during cyclic stress-induced fatigue are shown analytically to engender a substantial nonlinearity in the microelastic-plastic deformation resulting from an impressed stress perturbation. The non-Hookean stress-strain relationship is quantified by a material nonlinearity parameter beta that for a given fatigue state is highly sensitive to the volume fractions of veins and persistent slip bands (PSBs), PSB internal stresses, dislocation multipole configurations, dislocation loop lengths, dipole heights and the densities of secondary dislocations in the substructures. The effects on beta of vacancy, microcrack and macrocrack formation are also addressed. The connection between beta and acoustic harmonic generation is obtained. The model is applied to calculations of beta for fatigued polycrystalline nickel as a function of per cent life to fracture. For cyclic stress-controlled loading at 241 MPa, the model predicts a monotonic increase in beta of ca. 360% over the fatigue life. For strain-controlled loading at a total strain of 1.75 x 10(-3), a monotonic increase in beta of ca. 375% over the fatigue life is predicted.
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