说明:双击或选中下面任意单词,将显示该词的音标、读音、翻译等;选中中文或多个词,将显示翻译。
您的位置:首页 -> 词典 -> 有限应变理论
1)  finite strain theory
有限应变理论
1.
Steinberg-Cochran-Guinan (SCG) model, the corrected SCG model and the finite strain theory were reviewed with respect to the basic assumptions and applicability, and the shear modulus data of aluminum under shock compression predicted by these models were compared with the available data obtained in one-dimensional plate impact experiments.
分别用Steinberg-Cochran-Guinan(SCG)模型、修正的SCG模型和有限应变理论对材料的剪切模量做了数值计算,并与一维平面应变加载下铝的实验结果进行了比较。
2.
We obtained G″ P \-0=-0 033?GPa -1 for 93 tungsten alloy,and applied this result in the finite strain theory of Birch-Murnaghan,when comparing the calculated results of G″ P \-0=-0 033?GPa -1 with the results of G″ P =0, we find the results of G″ P =0 are greater than that of the res.
0 33GPa-1,把这一结果用于Birch Murnaghan有限应变理论的计算 ,并与G″P=0的计算结果进行了比较 。
2)  Eulerian finite strain theory
欧拉有限应变理论
1.
K 0S and K′ 0S ,the zero pressure adiabatic bulk modulus and its first pressure derivative of Birch Murnaghan EOS(isentrope) for halloysite,are obtained in terms of shock Hugoniot data by using the Eulerian finite strain theory.
用欧拉有限应变理论分析了埃洛石的冲击 Hugoniot 实验数据,得到了其低压相和高压相的等熵体积模量 K0 S 及其对压力的一阶导数 K′0 S。
3)  finite deformation theory
有限变形理论
1.
The definition of strain,the relationship between computation stress and true stress of body,deformation as well as geometric nonlinear computation of unbalance force were analyzed in details by using ANSYS based on finite deformation theory.
基于有限变形理论对ANSYS定义的应变、应力与物体真实应力之间的关系、位形、不平衡力的几何非线性计算等方面进行了详细分析,并针对ANSYS中的杆件单元Link8和平面单元Plane42,通过算例计算结果与理论解的对比,指出了ANSYS几何非线性算法的不足,即在计算过程中没有考虑到应变、应力的共轭关系,只是一种近似的非线性计算。
2.
The finite deformation theory is applied to investigate the effects of boundary condition and loading speed on shear band localization of normally consolidated Fujinomori clay.
基于有限变形理论,研究了正常固结藤森黏土的边界约束效应和加载速度效应。
3.
The boundary constrain effect and loading speed effect of over-consolidated Fujinomori clay areinvestigated using finite deformation theory on shear band localization.
基于有限变形理论,研究了超固结藤森黏土的边界约束效应和加载速度效应。
4)  finite strain
有限应变
1.
Research on dissipation of excess pore water pressure in one-dimensional finite strain consolidation of soft clays
软黏土层一维有限应变固结的超静孔压消散研究
2.
Using Voigt rule,the matrix formulation of governing equations of finite strain consolidation with Eulerian description is proposed in this paper.
采用Voigt规则建立了欧拉描述的有限应变固结控制方程的矩阵表述形式。
3.
Based on elastoplastic damage model under small strain condition, the model under finite strain condition is developed.
在软土各向异性弹塑性损伤模型的基础上 ,把小应变模型扩展到有限应变模型 ,推导出不排水平面应变条件下的剪切带形成条件 ,分析K0 固结状态下向各异性损伤对剪切带形成的影响 。
5)  finite theory
有限理论
1.
The ∑_Γ-fuzzy truth degree of formula relative to the finite theory in propositional logic system ■;
命题逻辑系统■中公式相对于有限理论的∑_Γ-模糊真度理论
2.
The theory of ∑_Γ-fuzzy truth degree being relative to finite theory in logic system L;
系统L中公式相对于有限理论的∑_Γ-真度理论
3.
The Theory of Σ_Γ-fuzzy Truth Degree Relent to Finite Theory in Propositional Logic System L_n~*;
命题逻辑系统L_n~*中公式关于有限理论的Σ_Γ-真度理论
6)  finite strain theory of elasticity
有限形变弹性理论
补充资料:有限应变
      由无数个无限小应变叠加而达可测量程度的总应变。有限应变是研究变形构造,进行应变测量的重要概念。从初始应变积累到现在的有限应变称为全量应变。由无限小应变叠加为有限应变的进程称为递进变形。将形成有限应变的连续过程划分为有限个间断过程,各间断过程里增加的应变量,称为增量应变。
  
  有限应变测量是利用地质标志物的变形结果对岩石的有限应变进行定量测量。如果标志物的原始大小和形状已知,则可测出该处岩石的应变全貌,即主应变值和主应变方向。如果仅仅知道标志物的原始形状(例如圆球)而不知道原始大小,则只能测出主应变轴之比和主应变方向。变形标志物有砾石、鲕粒、化石、结核、还原斑以及自形矿物等。
  
  有限应变测量的原理是应变椭球体和有限应变莫尔圆的几何特征。依据不同的已知条件现已提出的测量方法有20余种,目前应用较多的是平面应变测量。世界上有个别地区曾进行过三维应变测量。但是利用应变测量获得的大区域完整的应变图象还很少。
  

说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条