Modeling Creep and Continuous Fracture Process Zones in Spatial Prismatic Bodies |
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| Authors: | V. A. Bazhenov A. I. Gulyar S. O. Piskunov |
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| Affiliation: | (1) Kiev National University of Construction and Architecture, Kiev, Ukraine |
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| Abstract: | The semianalytic finite-element method is used to develop a method for solving problems of creep and continuous fracture of complex spatial bodies. The method allows modeling the variation of the stress-strain state during creep, accompanying accumulation of dispersed microdamages, and development of macroscopic effects—continuous fracture process zones. The growth of a continuous fracture process zone is modeled. A criterion is formulated for determination of the applicability limits of continuum damage mechanics. The method is exemplified by the problem of deformation and continuous fracture of a gas turbine blade __________ Translated from Prikladnaya Mekhanika, Vol. 41, No. 9, pp. 70–86, September 2005. |
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| Keywords: | creep damage continuous fracture process zone spatial bodies semianalytic finite-element method iterative algorithm long-term strength |
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