Abstract
The structural theory of short-term damage is used to study the coupled processes of deformation and microdamage of a physically nonlinear material in a combined stress state. The basis for the analysis is the stochastic elasticity equations for a physically nonlinear porous medium. Damage in a microvolume of the material is assumed to occur in accordance with the Huber-Mises failure criterion. The balance equation for damaged microvolumes is derived and added to the macrostress-macrostrain relations to produce a closed-form system of equations. It describes the coupled processes of nonlinear deformation and microdamage of the porous material. Algorithms are developed for calculating the dependence of microdamage on macrostresses and macrostrains and plotting stress-strain curves for a homogeneous material under either biaxial normal loading or combined normal and tangential loading. The plots are analyzed depending on the type of stress state
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Translated from Prikladnaya Mekhanika, Vol. 42, No. 11, pp. 30–39, November 2006.
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Khoroshun, L.P., Shikula, E.N. Microdamage of a nonlinear elastic material in combined stress state. Int Appl Mech 42, 1223–1230 (2006). https://doi.org/10.1007/s10778-006-0193-x
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DOI: https://doi.org/10.1007/s10778-006-0193-x