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中文摘要:
建立基于微裂纹扩展的岩石弹塑性损伤微观力学模型。压缩载荷下微裂纹尖端翼裂纹稳定扩展表征岩石的微观损伤,基于应变能密度准则用Newton迭代法求复合型断裂的翼裂纹扩展长度,并采用微裂隙统计的二参数Weibull函数模型反映绝对体积应变对微裂纹分布数目影响,进而用翼裂纹扩展所表征的应力释放体积和微裂纹数目来表示含有微裂隙的岩石损伤演化变量;宏观塑性屈服函数采用Voyiadjis等效塑性应变的硬化函数,反映塑性内变量对硬化函数的影响;建立岩石的弹塑性损伤本构关系及其数值算法,并用回映隐式积分算法编制弹塑性损伤模型的程序。分析弹塑性损伤模型的基本特性和围压对岩石损伤的影响,并从围压和短微裂隙长度等因素分析弹塑性损伤模型的岩石的损伤和宏观塑性特性。以2个单轴压缩岩石试验为例验证该模型。结果表明:所提出的弹塑性损伤模型与数值和试验结果比较吻合。
英文摘要:
A micro-crack elastoplastic damage model under compressive loading was presented. The propagation of wing crack in the micro-crack tip was characterized for rock damage, and the wing crack length was obtained using Newton iteration based on the strain energy density for mixed-mode fracture. The distribution of micro-cracks was presented by the absolute volume strain with the two-parameter Weibull statistical model. The damage evolution variable of rock was employed by the distribution of micro-cracks and stress release volume was described by lengthen of wing-crack. Voyiadjis's strain hardening function was employed as the plastic yield function and plastic potential function. The elastoplastic damage model with its numerical algorithm was proposed and the code of elastoplastic damage model was implemented by using return mapping implicit integration algorithm. The influences of rock confining pressures on the damage response in the elastoplastic damage model were analyzed, The plastic properties of the rock were also analyzed from the aspects of short micro-crack lengths, confining pressures. The results show that the proposed elastoplastic damage model agrees well with the experimental results for two rock tests under uniaxial compression .
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同项目期刊论文
A compressive damage constitutive model for rock mass with a set of non-persistently closed joints u
A Damage Constitutive Model for Rock Mass with Non-persistently Closed Joints under Uniaxial Compres
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