基于最小耗能原理的黏弹塑性损伤模型
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摘要
在基于"应变等效假定"和"余应变能等效假定"两种不同损伤力学基本假定的黏塑性损伤本构方程基础上,将最小耗能原理应用于固体介质的黏弹塑性问题,给出了损伤材料的黏塑性应变流变速率、黏塑性损伤发展速率和黏弹-塑性材料积累应变强弱化速率的非线性演化发展方程,建立了两个不同的黏弹塑性损伤模型(A和B),并进行了试验验证。作为算例,最后运用黏塑性损伤模型A,对地震荷载作用下建于岩石基础上的某混凝土重力坝的动力损伤问题进行了分析,结果表明该模型应用于混凝土重力坝的动力损伤分析是可行的。
Based on two kinds of visco-elastic plastic damage constitutive equations according to "hypothesis of strain equivalence" and "hypothesis of complementary energy",the principle of minimum dissipative energy is applied to visco-elastic plastic damage theory of solid materials. The nonlinear evolution equations of visco-plastic strain,damage variable and strengthening or softening parameter of damaged materials are presented. Visco-elastic plastic damage constitutive equations and three nonlinear evolution equations of damaged material,are considered and two different visco-elastic plastic damage models A and B of solid materials are established,and these two model are examined. Finally,the visco-elastic plastic dynamic damage problem of a concrete gravity dam due to earthquake load are analyzed by adopting visco-elastic plastic damage models A. Results show that this model can be used to analyze the dynamic damage of concrete gravity dam.
Based on two kinds of visco-elastic plastic damage constitutive equations according to "hypothesis of strain equivalence" and "hypothesis of complementary energy",the principle of minimum dissipative energy is applied to visco-elastic plastic damage theory of solid materials. The nonlinear evolution equations of visco-plastic strain,damage variable and strengthening or softening parameter of damaged materials are presented. Visco-elastic plastic damage constitutive equations and three nonlinear evolution equations of damaged material,are considered and two different visco-elastic plastic damage models A and B of solid materials are established,and these two model are examined. Finally,the visco-elastic plastic dynamic damage problem of a concrete gravity dam due to earthquake load are analyzed by adopting visco-elastic plastic damage models A. Results show that this model can be used to analyze the dynamic damage of concrete gravity dam.
引文
[1]周筑宝.最小耗能原理及其应用[M].北京:科学出版社,2001.
[2]邱战洪.非线性动力损伤力学理论及其数值分析模型[博士学位论文D].杭州:浙江大学,2005.
[3]Frantziskonis G,Desai C S.Constitutive model with strain softening[J].International Journal of Solids Structures,1987,23(6):733―750.
[4]Lemaitre J.A Continuous damage mechanics model for ductile fracture[J].Journal of Engineering Material and Technology,1985,97:83―89.
[5]张我华,邱战洪,余功栓.地震荷载作用下坝及其岩基的脆性动力损伤分析[J].岩石力学与工程学报,2004,23(8):1311―1317.ZHANG Wo-hua,QIU Zhan-hong,YU Gong-shuan.Analysis of brittle dynamic damage in dam and rock foundation due to earthquake[J].Chinese Journal of Rock Mechanics and Engineering,2004,23(8):1311―1317.
[6]邱战洪,张我华,任廷鸿.地震荷载作用下大坝系统的非线性动力损伤分析[J].水利学报,2005,36(5):1―11.QIU Zhan-hong,ZHANG Wo-hua,REN Ting-hong.Nonlinear dynamic damage analysis of large dam under the action of earthquake[J].Journal of Hydraulic Engineering,2005,36(5):1―11.
[2]邱战洪.非线性动力损伤力学理论及其数值分析模型[博士学位论文D].杭州:浙江大学,2005.
[3]Frantziskonis G,Desai C S.Constitutive model with strain softening[J].International Journal of Solids Structures,1987,23(6):733―750.
[4]Lemaitre J.A Continuous damage mechanics model for ductile fracture[J].Journal of Engineering Material and Technology,1985,97:83―89.
[5]张我华,邱战洪,余功栓.地震荷载作用下坝及其岩基的脆性动力损伤分析[J].岩石力学与工程学报,2004,23(8):1311―1317.ZHANG Wo-hua,QIU Zhan-hong,YU Gong-shuan.Analysis of brittle dynamic damage in dam and rock foundation due to earthquake[J].Chinese Journal of Rock Mechanics and Engineering,2004,23(8):1311―1317.
[6]邱战洪,张我华,任廷鸿.地震荷载作用下大坝系统的非线性动力损伤分析[J].水利学报,2005,36(5):1―11.QIU Zhan-hong,ZHANG Wo-hua,REN Ting-hong.Nonlinear dynamic damage analysis of large dam under the action of earthquake[J].Journal of Hydraulic Engineering,2005,36(5):1―11.
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