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304不锈钢高温多轴非比例循环棘轮行为的粘塑性本构描述 总被引:3,自引:1,他引:2
对304不锈钢600℃下的非比例循环棘轮行为进行了系统的实验研究,在统一粘塑性循环本构模型的框架下对其进行本构描述,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流动特性进行模拟,在等温条件下,在各向同性变形阻力演化方程中引入温度项来考虑温度效应,在随动硬化应力演化方程中引入动态恢复项的衰减系数,反映材料在特定温度范围(500-600℃)下入最大应变幅值衰减记忆函数∧(q)和最大各向同性变形阻力衰减记忆系数ω反映加载历史对循环棘轮行为的影响,将模型应用于304不锈钢高温多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。 相似文献
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不锈钢316L单轴棘轮行为及其影响因素的研究 总被引:2,自引:0,他引:2
对不锈钢316L材料进行了多种平均应力以及多种应力幅值下的单轴循环加载棘轮效应试验,分析研究了平均应力大小及其历史对其棘轮效应的影响,以及应力值大小及其历史对其棘轮效应的影响,揭示了不锈钢316L的单轴棘轮效应演化的特征及导致这些特征的原因,得到一些有意义的结果,对建立能较为精确地估计结构的循环累积变形的本构模型具有一定的参考作用。 相似文献
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316L不锈钢室温和高温单轴循环塑性流动特性分析 总被引:6,自引:4,他引:2
在316L不锈钢室温、高温单轴应变控制和应力控制下的系统循环试验结果基础上,对两种控制模式下循环过程中的塑性流动特性进行了定量分析。揭示和分析了循环就变幅值、平均应变、温度及其历史与应变循环下以及应力幅值、平均应力、温度及其历史与应力循环下塑性模量演变规律之间的关系和影响。研究中着重讨论了循环棘轮行为与塑性模量和累积塑性应变之间关系。研究表明,应变循环中塑性模量的演变规律明显不同于非对称应力循环,室温和高温下非对称应力循环中的棘轮效应由塑性模量和积累塑性应变的演变规律共同决定。 相似文献
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针对循环硬化行为的应变幅值依赖性和相对大应变幅值下的非饱和特性.建立了新的粘塑性循环本构模型,在本构模型中.引入新的变量来表征材料的循环硬化特性,该变量的演变方程中引入一个临界状态来反映循环硬化对应变幅值的依赖性:同时,将该变量分解为2个具有不同演变规律的分量.以此来描述相对大应变幅值下的非饱和循环硬化特性.结果表明.新建模型能够很好地描述304不锈钢循环硬化行为的应变幅值依赖性和非饱和特性. 相似文献
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An experimental study was achieved for the cyclic properties of SS304 stainless steel subjected to uniaxial strain-controlled, uniaxial and nonproportionally multiaxial stress-controlled cyclic loading at room and high temperatures. The effects of cyclic strain amplitude, mean strain, temperature and their histories on the cyclic deformation behavior of the material were investigated under the uniaxial strain-controlled cyclic loading. The uniaxial and nonproportionally multiaxial ratcheting was researched under the asymmetrical stress-controlled cyclic loading with variable stress amplitudes, mean stresses, loading paths and their histories at room and high temperatures. It is shown that the uniaxial cyclic properties under strain-controlled cyclic loading and the ratcheting under asymmetric uniaxial and nonproportionally multiaxial stress-controlled cyclic loading depend not only on the current temperature and loading state, but also greatly on the previous loading history and the shape of loading path. The material presents much greater cyclic hardening and less ratcheting in the range of 400–600 °C than at room temperature, due to the strong dynamic strain aging taken place in this temperature range. Some significant results were obtained for the constitutive modeling of cyclic plastic deformation such as ratcheting. 相似文献
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C. Guionnet 《Nuclear Engineering and Design》1989,116(3)
A new constitutive equation has been developed on a purely phenomenological basis in order to interpret ratcheting experiments. The model is based on a generalized Armstrong-Frederick equation for the kinematic variable; the coefficients of this equation are functions of both instantaneous and accumulated plastic strain. The experiments described relate to austenitic stainless steel (17-12 SPH) tubular specimens subjected to cyclic torsional loading under constant tensile stress at 600°C. Comparisons between experimental and theoretical results show that the model reasonably well predicts not only ratcheting but also hysteresis loops and the cyclic hardening curve. 相似文献
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The use of tungsten as a plasma-facing material necessitates a transition joint to the oxide dispersion strengthened (ODS) steel or ferritic steel (FS) structural material of the primary coolant loop at the end of the divertor target plate where the surface heat flux is very low. A critical issue in the transition joints is the coefficient of thermal expansion (CTE) mismatch between the tungsten (or tungsten-alloy) and ODS steel, which can lead to unacceptably high thermal stresses during steady state and ratcheting during cyclic loads. Detailed 2D and 3D thermo-mechanical analyses were conducted to study the behavior of a transition from tungsten to FS with an intermediate layer of tantalum, located outside of the high heat flux region. The results include plastic strains under various loading conditions including fabrication processes, warm and cold shutdown, and allow for plastic behaviors leading to stress relaxation. The accumulation of plastic deformation may cause ratcheting. Modifications were proposed to the transition joint design in order to eliminate stress concentration and ratcheting under cyclic loading. The results of the modified design exhibited less plastic deformation in the joints as well as no ratcheting caused by warm and cold shutdown. 相似文献
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Xue Hu Lixin Huang Wanggen Wang Zhenguo Yang Wei Sha Wei Wang Wei Yan Yiyin Shan 《Fusion Engineering and Design》2013,88(11):3050-3059
The low cycle fatigue (LCF) properties and the fracture behavior of China Low Activation Martensitic (CLAM) steel have been studied over a range of total strain amplitudes from 0.2 to 2.0%. The specimens were cycled using tension-compression loading under total strain amplitude control. The CLAM steel displayed initial hardening followed by continuous softening to failure at room temperature in air. The relationship between strain and fatigue life was predicted using the parameters obtained from fatigue test. The factors effecting on low cycle fatigue of CLAM steel consisted of initial state of matrix dislocation arrangement, magnitude of cyclic stress, magnitude of total strain amplitude and microstructure. The potential mechanisms controlling the stress response, cyclic strain resistance and low cycle fatigue life have been evaluated. 相似文献
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利用自行研制的高温夹具完成了Zr-1Nb合金和Zr-4合金薄壁短管试样不同温度下的单调拉伸和375℃下的等幅低周疲劳试验,获得了两种锆合金的单调和循环本构关系及Manson-Coffin寿命估算模型。研究结果表明:Zr-1Nb合金和Zr-4合金的弹性模量、屈服强度、抗拉强度以及应变硬化程度明显下降。随着温度的升高,温度对Zr-4合金的应变硬化程度的影响逐渐减弱;应变速率对Zr-4合金的拉伸性能的影响微弱。在等幅应变循环过程中,Zr-4合金表现为循环硬化,应变幅越低,硬化现象越明显;Zr-1Nb在较低应变幅下表现为循环硬化特性,而在较高应变幅下表现为循环软化。相对于单调拉伸行为,Zr-4合金在不同温度下的循环行为均表现出明显的强化特性。 相似文献