Principles of the micromechanics of material damage. 1. Long-term damage |
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Authors: | L P Khoroshun |
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Institution: | (1) S. P. Timoshenko Institute of Mechanics, National Academy of Sciences of Ukraine, Kyiv, Ukraine |
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Abstract: | The principles of the theory of long-term damage based on the mechanics of stochastically inhomogeneous media are set out.
The process of damage is modeled as randomly dispersed micropores resulting from the destruction of microvolumes. A failure
criterion for a single microvolume is associated with its long-term strength dependent on the relationship of the time to
brittle failure and the difference between the equivalent stress and the Huber-von Mises failure stress, which is assumed
to be a random function of coordinates. The stochastic elasticity equations for porous media are used to determine the effective
moduli and the stress-strain state of microdamaged materials. The porosity balance equation is derived in finite-time and
differential-time forms for given macrostresses or macrostrains and arbitrary time using the properties of the distribution
function and the ergodicity of the random field of short-term strength as well as the dependence of the time to brittle failure
on the stress state and the short-term strength. The macrostress-macrostrain relationship and the porosity balance equation
describe the coupled processes of deformation and long-term damage
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Translated from Prikladnaya Mekhanika, Vol. 43, No. 2, pp. 108–121, February 2007.
For the centenary of the birth of G. N. Savin. |
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Keywords: | short-term damage long-term damage microstrength distribution stochastically inhomogeneous media destroyed microvolumes porosity porosity balance effective moduli |
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