THE KINEMATIC HARDENING RULES UNDER NONPROPORTIONAL CYCLIC LOADING

A discussion of several kinematic hardening rules based on nonproportional cyclic experiments of 42CrMo steel is presented. They include Prager, Ziegler, Chaboche, Mroz and Tseng Lee hardening rules. It shows that Mroz and Tseng Lee rule related to a two surface model has the latent potentiality to describe the nonproportional cyclic hardening behaviors, and a simple two surface model is presented.

基于晶体塑性有限元法的316LN不锈钢单轴力学行为

为了更准确描述316LN不锈钢单轴力学行为,在率相关晶体塑性理论框架下,以Ahmadzadeh-Varvani(A-V)随动硬化准则为基础,构建了多晶循环塑性本构模型.通过程序UMAT将其移植到有限元软件ABAQUS中,并通过Voronoi图建立二维多晶有限元模型;分别模拟了不同加载率、应变循环和非对称应力循环条件下316LN不锈钢的变形行为.对比模拟结果与实验数据可知:单轴拉伸条件下,两者的应力误差在±0.9%附近波动,最大应力误差仅为1.9%;应变循环条件下,两者的最大应力误差出现在第5圈,拉伸和压缩阶段应力误差分别为11.4%和12.2%,循环稳定后,拉伸和压缩阶段应力误差分别为7.4%和7.9%;应力循环条件下,两者的误差主要体现在滞环宽度上,模拟的滞环面积相对较窄,但滞环演化趋势误差较小.

一类新的超弹性-循环塑性本构模型

目前,很多经典的超弹性-有限塑性本构模型已被提出,但由于超弹性理论中中间构型的引入使得随动硬化法则相对复杂,故多数文献均采用的是经典的Armstrong--Frederick(A--F)随动硬化法则.本文基于已有的本构理论,利用多机制过程的概念拓展了Lion塑性变形分解理论,明确提出了多重中间构型的概念,并在此基础上,对经典理论中客观性的定义进行了概念上的推广,使其更好地适用于超弹性本构理论分析,同时提出了一类新的超弹性-有限塑性本构模型.这类本构模型满足热动力学法则,且可融合多种小变形循环塑性理论中常用的随动硬化法则(如经典的A--F模型,Chaboche模型,Ohno--Wang(O--W)模型以及Karim--Ohno(K--O)模型等),使得小变形理论中背应力的加法分解性质及其演化的临界面阶跃特性在大变形领域中均有所体现,故本文提出的本构理论可看作是小变形循环塑性模型在大变形理论中的扩展.本文最后以K--O模型为例,对推荐模型进行了详细探讨,并与相应的次弹性模型进行了对比.

一种新的随动不均匀强(软)化砼本构模型

通过对有关砼材料试验数据的认真分析 ,放弃了均匀强 (软 )化的传统假说 ,提出了一种由四种砼典型破坏试验数据标定材料加载面的实际形状和运动规律的新方法 .与只由一条轴压试验曲线标定的传统方法相比 ,该模型更加充分地利用了试验数据 .所建立的弹塑性随动强 (软 )化模型 ,不仅可以模拟混凝土材料的强化、软化和包氏效应 ,而且具有在考虑材料软化时无须将坐标系转到应变空间中的特点 .通过与试验结果的对比分析证明 ,正交法则可以很好地描述混凝土材料的塑性变形性能 ,所得到的刚度矩阵对称 ,能够节省大量的机时和计算费用 ,便于移植 .

热疲劳裂纹张开过程的有限元模拟

用有限元方法并考虑材料的多线性随动强化性质对带有裂纹的简单试件模型进行热疲劳分析,研究热疲劳裂纹张开的过程和规律。试件上下端固定,左侧温度按照60℃-240℃-60℃循环,右侧恒温60℃,裂纹位于左侧中部。热疲劳裂纹张开、扩展的直接动力是垂直裂纹面的拉应力,其产生是由于在升温半循环中左侧材料膨胀受压产生压缩塑性变形,经历降温半循环温度回到初始温度60℃时,试件左侧塑性变形不能完全恢复,于是拉应力产生,裂纹张开。在稳定的温度循环下,由于试件左侧塑性变形不断累积,热疲劳裂纹的张开位移和应力强度因子增加,并趋于稳定。

饱和黏土静力及循环稳定弹塑性分析

为了评价黏土地基在结构自重及海洋风、浪等荷载作用下的稳定性,在临界状态理论框架中,基于修正的运动硬化弹塑性模型,模拟静力及循环荷载作用下饱和黏土的力学响应。通过修正已有模型的硬化规律,使其能够更好地描述黏土静力和循环受力特性;建立类似于修正剑桥模型的边界面方程,以适应等向硬化及修正的运动硬化规律;采用径向映射法则及移动的映射中心模拟应力–应变曲线的滞回性;构建适当的塑性模量插值函数,描述饱和黏土在低应力水平下的循环稳定特性。通过对相关文献中及天津黏土循环三轴试验结果的模拟,验证模型的合理性和有效性,结果表明,修正的模型具有模拟黏土静力及循环稳定等特性的能力。

Ratcheting behavior of notched stainless steel samples subjected to asymmetric loading cycles

The ratcheting response of 316 stainless steel samples at the vicinity of notch roots under single-and multi-step loading conditions is evaluated.Multi-step tests were conducted to examine local ratcheting at different low–high–high and high–low–low loading sequences.The stress levels over loading steps and their sequences highly influenced ratcheting magnitude and rate.The change of stress level from low to high promoted ratcheting over proceeding cycles while ratcheting strains dropped in magnitude for opposing sequence where stress level dropped from high to low.Local ratcheting strain values at the vicinity of notch root were found noticeably larger than nominal ratcheting values measured at farer distances from notch edge through use of strain gauges.Ratcheting values in both mediums of local and nominal were promoted as notch diameter increased.To assess progressive ratcheting response and stress relaxation concurrently,the Ahmadzadeh-Varvani(A-V)kinematic hardening rule was coupled with Neuber’s rule enabling to calculate local stress at notch root of steel samples.Local stress/strain values were progressed at notch root over applied asymmetric stress cycles resulting in ratcheting buildup through A-V model.The relaxation of stress values at a given peak-valley strain event was governed through the Neuber’s rule.Experimental ratcheting data were found agreeable with those predicted through the coupled framework.