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基于屈服面角点非共轴理论中采用Gram-Schmit正交化方法,提出了一种新的非共轴本构模型。模型修正了原有的流动法则,其中非共轴流动方向被定义为将单位应力增量方向在参考主应力正交方向上的投影,同时与塑性标量因子相关联。另外,根据广义应力的状态下的剪胀方程推导了一种新的塑性函数形式。以状态相关砂土模型为基本模型,分别采用新的非共轴模型和未修正的模型模拟了Toyoura砂的空心圆柱单剪试验和空心圆柱扭剪试验,将模型模拟的结果与试验数据进行对比,结果表明,新非共轴模型能更为合理地反映试验中非共轴现象及其变化规律,特别是固定主应力轴方向的单调剪切试验。
A new non-coaxial constitutive model is proposed based on Gram-Schmit orthogonalization in non-coaxial theory of yield point. The model amends the original law of flow, in which the non-coaxial flow direction is defined as the projection of the incremental direction of unit stress in the orthogonal direction of the reference principal stress and is associated with the plastic scalar factor. In addition, a new form of plastic function is deduced according to the dilatancy equation in the state of generalized stress. Taking the sand-related model as the basic model, the new uncoaxial model and the uncorrected model were respectively used to simulate the Hollow Cylindrical Shear Test and the Hollow Cylinder Twist Shear Test of Toyoura Sand. The model simulation results were compared with the experimental data The results show that the new non-coaxial model can more reasonably reflect the non-coaxial phenomenon and its variation in the test, especially the monotonic shear test in the direction of the principal stress axis.