16MnR钢循环蠕变-疲劳交互作用损伤力学模型

应力控制模式下出现的循环蠕变现象,将和疲劳一起加速材料的损伤.在进行损伤评估的时候,需兼顾循环蠕变和疲劳的影响.在循环蠕变本构模型、延性耗散理论的基础上,建立循环蠕变疲劳交互作用损伤力学模型.进行16 MnR钢420℃下应力控制的脉动循环试验,选取一种新的损伤参量“等效模量”来描述循环蠕变和疲劳的综合作用,得到16 MnR钢420℃脉动循环时循环蠕变疲劳交互作用下的损伤演化估算表达式和寿命预测方法.通过试验验证,寿命预测结果与试验结果吻合较好.     

考虑塑性应变记忆恢复的循环棘轮本构模型研究

在统一粘塑性循环本构理论框架下,以Ohno-Abdel-Karim非线性随动硬化模型为基础,建立了一个循环本构模型。模型通过引入塑性应变幅值记忆效应,并在塑性应变记忆项中加入恢复系数,提高了对循环硬化材料单轴棘轮行为的预言能力。将模型应用于316L不锈钢单轴棘轮行为的描述中,模拟不同平均应力、应力幅值下的棘轮应变,均与实验数据吻合较好,证明本文改进的本构模型能合理地描述循环硬化材料的单轴棘轮行为。     

304不锈钢室温单轴循环棘轮行为的粘塑性本构描述

在统一粘塑性循环本构模型的框架下对循环硬化的304不锈钢的单轴棘轮行为进行了本构描述。模型中通过随动硬化背应力演化和各向同性变形阻力演化对304不锈钢在非对称应力循环下的循环附加硬化和循环流动特性进行了分析，同时考虑了加载历史对循环棘轮行为的影响。将模型应用于304不锈钢室温单轴循环棘轮行为及其对加载历史依赖性的描述中，预言结果与实验结果吻合较好。     

退火和调质42CrMo合金钢单轴循环塑性行为的实验研究

在室温下对退火和调质42CrMo合金钢进行了单轴应变控制和应力控制的系统循环实验,并对它们的应变循环和应力循环特性进行比较.揭示和分析了应变幅值、平均应变及其历史对材料应变循环特性的影响以及应力幅值、平均应力及其历史对棘轮行为的影响.讨论了应变循环和应力循环间的交互作用以及不同热处理工艺下材料循环变形行为间的区别.研究发现材料的热处理工艺、平均应力和应力幅值及其历史对材料的棘轮行为都有很大的影响.得到了一些有助于进行合理本构描述的结果.     

超弹性镍钛形状记忆合金单轴相变棘轮行为的宏观唯象本构模型

超弹性镍钛形状记忆合金因其良好的力学性能以及独特的超弹性和形状记忆效应已广泛应用于土木工程、航空航天和生物医疗等多个领域,在实际服役环境中超弹性镍钛合金元件不可避免地会承受不同应力水平的循环载荷作用,亟待建立描述相变棘轮行为(即峰值应变和谷值应变随着正相变和逆相变循环的进行不断累积)的循环本构模型.为此,基于已有的超弹性镍钛形状记忆合金在不同峰值应力下的单轴相变棘轮行为实验研究结果,在广义黏塑性框架下,对Graesser等提出的通过背应力非线性演化方程反映超弹性镍钛形状记忆合金超弹性行为的一维宏观唯像本构模型进行了拓展,考虑了正相变和逆相变过程中特征变量的差异及其随循环的演化,以非弹性应变的累积量为内变量引入了正相变开始应力、逆相变开始应力、相变应变和残余应变的演化方程,同时通过峰值应力与正相变完成应力的比值来确定演化方程中的相关系数,建立了描述超弹性镍钛合金单轴相变棘轮行为的本构模型.将模拟结果与对应的实验结果进行对比发现,建立的宏观唯像本构模型能够合理地描述超弹性镍钛形状记忆合金的单轴相变棘轮行为及其峰值应力依赖性,模型的预测结果和实验结果吻合得很好.     

耦合蠕变损伤的Chaboche粘塑性模型的研究

Chaboche粘塑性统一本构模型由于没有包含损伤变量,在应力恒定时只能得到不变的塑性应变速率,因此不能描述蠕变第三阶段的加速过程.该文按照Lemaitre有效应力的概念,采用Kachanov损伤演化方程,推导了耦合损伤的Chaboche粘塑性流动方程和硬化方程,并链接到有限元软件ANSYS中,将之用于高温合金钢P91的蠕变寿命计算,结果表明耦合损伤模型的模拟值与实验数据基本吻合;为该模型描述蠕变损伤和疲劳交互作用奠定了基础.     

SS304不锈钢高温非比例多轴循环变形行为的粘塑性本构描述

在350℃和700℃下SS304不锈钢的非比例多轴循环变形行为进行了系统的实验研究。在此基础上,在统一粘塑性本构理论的框架下改进和发展了一个新的循环本构模型。该模型给出了新的背应力演化方程,引入了非比例度参量,考虑了温度效应和最大塑性应变幅值记忆效应,能够对材料的高温非比例多轴应变循环变形行为和棘轮行为进行统一描述。模型的模拟结果与实验结果比较表明:该模型对SS304不锈钢高温非比例多轴循环变形行为的描述比较合理。     

基于新弹塑性模型全程模拟金属疲劳失效

金属材料疲劳失效问题是工程中一类主要问题,选择合理的材料本构关系对于准确确定疲劳失效强度至关重要．本文提出一个简单形式的自由光滑新弹塑性模型,该模型在不涉及通常的屈服条件以及加卸载条件的意义上完全自由,避免了模量间断问题,且比经典模型更简单、更符合实际．结果表明,该模型可直接模拟金属材料在循环加载下直至疲劳破坏的全过程,不涉及任何损伤变量以及人为假设的失效判据,特别地,可直接模拟金属材料的高周、低周疲劳直至最终失效破坏行为．应用P92钢的相关实验数据,给出了循环加载下的数值模拟结果,结果表明,在各种加载-卸载循环情形下,随着应力幅值的增大,疲劳失效循环数减少,这与实际材料行为相一致．     

S30408低温棘轮效应本构描述

S30408奥氏体不锈钢因其优异的力学性能和耐低温性能而被广泛用于制作LNG等低温罐车罐体的内容器。此类罐体的内容器在其支撑部位不但承受内压引起的恒定应力还会承受惯性载荷引起的交变应力，容易发生渐进的塑性应变累积即棘轮效应。但目前还缺乏有效预测S30408低温棘轮效应的本构描述。利用几种较为先进的本构模型对低温S30408奥氏体不锈钢棘轮应变进行模拟，发现这些本构模型存在循环初期过低预测和循环后期过高预测的缺点，并且这种过高预测会随着循环圈数的增加而增大。基于Ohno - Wang II模型，关联形变马氏体含量与各向同性强化与随动强化，并给出马氏体极限含量dL的演化规律，进而提出一种含马氏体相变的循环塑性本构模型。与其它模型相比，该模型能有效改善在循环初期预测值过低和后期预测值过高的情况，同时能够较好地预测循环加载过程中形变马氏体的含量。     

S30408低温棘轮效应本构描述

S30408奥氏体不锈钢因其优异的力学性能和耐低温性能而被广泛用于制作LNG等低温罐车罐体的内容器。此类罐体的内容器在其支撑部位不但承受内压引起的恒定应力还会承受惯性载荷引起的交变应力,容易发生渐进的塑性应变累积即棘轮效应。但目前还缺乏有效预测S30408低温棘轮效应的本构描述。利用几种较为先进的本构模型对低温S30408奥氏体不锈钢棘轮应变进行模拟,发现这些本构模型存在循环初期过低预测和循环后期过高预测的缺点,并且这种过高预测会随着循环圈数的增加而增大。基于Ohno - Wang II模型,关联形变马氏体含量与各向同性强化与随动强化,并给出马氏体极限含量dL的演化规律,进而提出一种含马氏体相变的循环塑性本构模型。与其它模型相比,该模型能有效改善在循环初期预测值过低和后期预测值过高的情况,同时能够较好地预测循环加载过程中形变马氏体的含量。     

ADVANCES IN TRANSFORMATION RATCHETING AND RATCHETING-FATIGUE INTERACTION OF NITI SHAPE MEMORY ALLOY

The accumulation of inelastic deformation occurring in NiTi shape memory alloy under the stress-controlled cyclic loading condition is named transformation ratcheting, since it is mainly caused by the solid-solid transformation from austenite to martensite phase and vice versa. The transformation ratcheting and its effect on the fatigue life (i.e., transformation-fatigue interaction) are key issues that should be addressed in order to assess the fatigue of NiTi shape memory alloy more accurately. In this paper, the advances in the studies on the transformation ratcheting and ratcheting-fatigue interaction of super-elastic NiTi shape memory alloy in recent years are reviewed: First, experimental observation of the uniaxial transformation ratcheting and ratcheting-fatigue interaction of super-elastic NiTi alloy under the stress-controlled cyclic loading conditions is treated, and the detrimental effect of transformation ratcheting on the fatigue life is addressed; Secondly, two types of cyclic constitutive models (i.e., a macroscopic phenomenological model and a micromechanical one based on crystal plasticity) constructed to describe the transformation ratcheting of super-elastic NiTi alloy are discussed; Furthermore, an energy-based failure model is provided and dealt with by comparing its predicted fatigue lives with experimental ones; Finally, some suggestions about future work are made.     

Assessment of the service life of structural steels by using degradation models with allowance for fatigue and creep of the material

A mathematical model is developed within the framework of equations of damaged medium mechanics to describe the processes of viscoplastic straining and damage accumulation in structural steels with allowance for fatigue and creep of the material. A model of damage summation due to interaction of low-cycle fatigue and creep of the material is proposed. Material parameters and scalar functions of equations of mechanics of damaged media are determined. Viscoplastic straining and fatigue-induced damage accumulation in 08Kh18N10T and 12Kh18N9 are studied numerically, and the data obtained are compared with available results of physical experiments.     

损伤弹性材料的有效模量及本构关系

考虑了微裂纹之间的相互作用，利用随机熔断丝网络（Ｒａｎｄｏｍｆｕｓｅｎｅｔｗｏｒｋ）作为模型，模拟了脆性材料在外载荷作用下，其有效模量随损伤的演变行为，并考察了系统含损伤的本构关系。发现在损伤初期，有效模量和损伤具有线性下降关系；而在后期，由于损伤局部化，有效模量迅速下降，提出了一个有效模量随损伤变化的非线性关系。讨论了利用网络模型来研究材料含损伤本构关系的可行性和优越性。     

基于单弹簧联结单元法的钢筋混凝土梁损伤模拟

钢筋混凝土梁的损伤模拟的重难点在于描述两种材料非线性的本构关系以及钢筋混凝土粘结滑移关系非线性的描述,采用单弹簧联结单元法模拟钢筋和混凝土相互作用,结合混凝土四参数损伤模型,模拟钢筋混凝土结构多轴应力状态下从开始加载到结构破坏的全过程。数值算例不仅体现该方法的有效性,也具有重要的工程实践意义。     

A damage model with evolving nonlocal interactions

We present a damage model for softening materials with evolving nonlocal interactions. The thermodynamic implications and the material stability issue are addressed. The proposed nonlocal averaging scheme provides the obtained constitutive models with an evolving nonlocal interaction which is activated only when damage occurs. In the analysis of structures made of quasi-brittle materials, this feature helps not only to overcome some issues with the incorrect initiation of damage but also to better control the evolving size of the active fracture process zone. This is an essential feature that is usually not considered in depth in many existing nonlocal approaches to the continuum modelling of quasi-brittle fracture. Numerical examples are given to demonstrate features of the proposed modelling approach.     

Elastic behaviour of a regular lattice for meso-scale modelling of solids

A modelling strategy is proposed to link the meso-scale mechanical response of a solid material to the macroscopic material behaviour. The model is based on a regular lattice of truncated octahedral cells, with sites at the cell centres linked by two sets of bonds. The relationship between the macroscopic elastic behaviour of the model and the elastic properties of the bonds is studied numerically. The results demonstrate that, in contrast to previously proposed lattice arrangements, any elastic properties of metallic or cementitious materials can be obtained by appropriate selection of the axial and the shear stiffness of the bonds. Discussion of the modelling approach includes the potential of the site-bond model to simulate the evolution of damage driven not only by mechanical deformation but also by processes that involve the interaction of different mechanisms.     

复合材料层合板面内渐进损伤分析的CDM模型简

基于连续介质损伤力学,提出了一个预测复合材料层合板面内渐进损伤分析的模型,它包括损伤表征、损伤判定和损伤演化3 部分. 模型能够区分纤维拉伸断裂、纤维压缩断裂、纤维间拉伸损伤和纤维间压缩损伤4 种损伤模式,定义了与4 个损伤模式对应的损伤状态变量,导出了材料主轴系下损伤前后材料本构之间的关系. 损伤起始采用Puck 准则判定,损伤演化由特征长度内应变能释放密度控制. 假定材料服从线性应变软化行为,建立了损伤状态变量关于断裂面上等效应变的渐进损伤演化法则. 模型涵盖了复合材料面内损伤起始、演化直至最终失效的全过程. 完成了含孔[45/0/-45/90]_2S 层合板在拉伸和压缩载荷下失效分析,结果表明该模型能合理进行层合板的强度预测和损伤失效分析.     

复合材料层合板面内渐进损伤分析的CDM模型

基于连续介质损伤力学,提出了一个预测复合材料层合板面内渐进损伤分析的模型,它包括损伤表征、损伤判定和损伤演化3 部分. 模型能够区分纤维拉伸断裂、纤维压缩断裂、纤维间拉伸损伤和纤维间压缩损伤4 种损伤模式,定义了与4 个损伤模式对应的损伤状态变量,导出了材料主轴系下损伤前后材料本构之间的关系. 损伤起始采用Puck 准则判定,损伤演化由特征长度内应变能释放密度控制. 假定材料服从线性应变软化行为,建立了损伤状态变量关于断裂面上等效应变的渐进损伤演化法则. 模型涵盖了复合材料面内损伤起始、演化直至最终失效的全过程. 完成了含孔[45/0/-45/90]_2S 层合板在拉伸和压缩载荷下失效分析,结果表明该模型能合理进行层合板的强度预测和损伤失效分析.      

Stochastic damage hysteretic model for concrete based on micromechanical approach

In the present paper, a kind of stochastic damage hysteretic model is proposed to describe the damage and hysteretic behaviors of concrete material. According to the model, a parallel system made up of micro-elements, which are developed based on the micro-tensile and shear damage mechanism respectively, is adopted to obtain the overall responses of concrete. The influence of plastic strain and hysteretic energy dissipation of the material are also considered in the model. To reflect the stochastic properties of concrete, the fracture strain of the micro-element is set as a random variable. Then the monotonic, loading and unloading curves of the parallel system are derived analytically by averaging the stochastic micro-elements and two hysteretic rules are combined to the proposed model to account for complicated loading conditions. Furthermore, a nonlocal process is introduced to the model to overcome the mesh dependence issues of softening materials. Finally, several numerical examples are conducted, demonstrating that the proposed model can provide reliable results reflecting the damage, plasticity and hysteretic behaviors of concrete material.     

单向应力状态下钢材高温分析的损伤模型

本文结合结构钢材火灾高温分析的特点，通过对Ｌｅｍａｉｔｒｅ关于常温下金属材料延性损伤模型和修改，提出一种适用应力状态下钢材高温分析的损伤模型，为进行钢框架在火灾高温作用下及火灾冷却后的２和损伤分析提供可能性。