1) elastoplastic coupling tensor
弹塑性耦合张量
1.
According to different scale material performances data obtainable in analysis of elastoplastic coupling problems, this paper dedicated its rigorous study to deduce the closed theoretical and explicit conjugate expressions of elastoplastic coupling tensor in mesoscopic and macroscopic dimensions.
依据弹塑性耦合问题的不同类型,应用广义正交原理,在应变空间上推导出已知宏、细观形变规律情况下两种不同形式的弹塑性耦合张量理论表达式及其显形式。
2) elastoplastic coupling
弹塑性耦合
1.
An elastoplastic coupling fatigue constitutive model for plain concrete;
混凝土弹塑性耦合疲劳本构模型
2.
Constitutive model for concrete in strain space with elastoplastic coupling;
应变空间表述的混凝土弹塑性耦合本构模型
3.
The concept of effective stress and elastoplastic coupling is applied to analyze the constitutive characteristics of concrete.
考虑到混凝土具有塑性和脆性相结合的复杂性质,运用损伤和塑性理论在应变空间分别建立了一个能描述混凝土应变和刚度变化的损伤面和塑性面,应用有效应力和弹塑性耦合的概念分析了混凝土的本构特征。
3) elasto-plasticity damage
弹塑性耦合损伤
4) coupled thermal elasto plasticity
耦合热弹塑性
6) tensor coupling
张量耦合
1.
The tensor coupling of the ω meson to nucleon in modified derivative scalar coupling (MDSC) model for finite nuclei was investigated.
研究了改进的标量微分耦合模型中,ω介子与核子张量耦合对于有限核计算的影响。
2.
The tensor couplings for the ω- and ρ-meson are included in the model.
通过建立能够自洽地描述核子和反核子束缚态的相对论Hartree模型来研究有限核中的量子真空 ,其中狄拉克海对介子场方程的贡献由单圈图考虑 ,模型中还引入了ω介子和 ρ介子的张量耦合项 。
3.
In this work we introduce tensor couplings for the vector mesons.
8M_N左右,导致自旋轨道力仅是实验值的三分之一,本文通过引入矢量介子的张量耦合项,使自旋轨道力增加了一倍,同时保持有效质量不变,相应的核子能谱与实验值的符合得到明显改进,而预言的真空反核子位阱深度增大了20—30MeV。
补充资料:张女弹
1.乐府曲名。
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