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  • 标题:Calculation And Use Of Intragranular Field Fluctuations In Non-Linear Homogenization Schemes For The Prediction Of The Mechanical Behavior Of Viscoplastic Polycrystals
  • 本地全文:下载
  • 作者:Ricardo A. Lebensohn ; Carlos N. Tomé
  • 期刊名称:Mecánica Computacional
  • 印刷版ISSN:2591-3522
  • 出版年度:2006
  • 页码:161-178
  • 语种:English
  • 出版社:CIMEC-INTEC-CONICET-UNL
  • 摘要:In this contribution we present an implementation of the calculation of the average field fluctuations inside the grains of a thermoelastic aggregate, in terms of the derivatives of the stress potential given by the self-consistent (SC) approximation for linear polycrystals. Similar expressions are applicable to non-linear viscoplastic polycrystals, whose behavior can be estimated by means of the different non-linear homogenization schemes, which require linearization of the constitutive behavior at grain level. These statistical indicators are in turn used to calculate the standard deviations (SD) of the mechanical fields, considering both intergranular and intragranular fluctuations. The SDs corresponding to different first-order non-linear SC extensions are then compared, for the case of a non-linear hcp polycrystal. Finally, we show how to use the above statistical information to generate more refined nonlinear SC estimates, taking into account both first- and second-order moments to define the local linearized behavior of the grains
  • 其他摘要:In this contribution we present an implementation of the calculation of the average field fluctuations inside the grains of a thermoelastic aggregate, in terms of the derivatives of the stress potential given by the self-consistent (SC) approximation for linear polycrystals. Similar expressions are applicable to non-linear viscoplastic polycrystals, whose behavior can be estimated by means of the different non-linear homogenization schemes, which require linearization of the constitutive behavior at grain level. These statistical indicators are in turn used to calculate the standard deviations (SD) of the mechanical fields, considering both intergranular and intragranular fluctuations. The SDs corresponding to different first-order non-linear SC extensions are then compared, for the case of a non-linear hcp polycrystal. Finally, we show how to use the above statistical information to generate more refined nonlinear SC estimates, taking into account both first- and second-order moments to define the local linearized behavior of the grains
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