1) Cosserat continuum model
Cosserat连续体模型
1.
Numerical analysis for the effects of constitutive parameters in Cosserat continuum model on the simulation results of the strain localization;
Cosserat连续体模型中本构参数对应变局部化模拟结果影响的数值分析
2.
Finite Element Simulation of Strain Localization Based on Cosserat Continuum Model;
基于Cosserat连续体模型的应变局部化有限元模拟
2) Biot-Cosserat continuum model
Biot-Cosserat连续体模型
1.
The Biot-Cosserat continuum model for coupled hydro-dynamic processes in saturated porous media is proposed by means of the combination of both Biot theory and Cosserat continuum theory to simulate the strain localization phenomena due to the strain softening.
提出了适用于饱和多孔介质中应变局部化分析及动力渗流耦合分析的Biot-Cosserat连续体模型。
3) Cosserat continuum
Cosserat连续体
1.
Finite element analysis of Cosserat continuum for progressive failure and limit bearing capacity of soil foundation;
地基渐进破坏及极限承载力的Cosserat连续体有限元分析
2.
An elastoplastic Cosserat continuum model for CAP constitutive model with non-smooth multiplicative yield surfaces is presented.
提出了一个非光滑多重屈服面的CAP弹塑性Cosserat连续体模型。
4) Cosserat continua
Cosserat连续介质
1.
Classical yield criterions cannot be applied directly to Cosserat continua since the strain tensor and stress tensor in Cosserat continua are asymmetric.
Cosserat连续介质下的应力、应变张量具有不对称性,经典连续介质的屈服准则无法直接用于 Cosserat连续介质。
5) cosserat model
Cosserat模型
1.
The geometry of deformation of the rod section is discussed and differences between the Kirchhoff model and the Cosserat model are analyzed based on the definitions of strain vector at the center and curvature-twisting vector of the section.
通过截面形心的应变矢量和弯扭度的定义,讨论了截面的变形几何,分析了Kirchhoff模型和Cosserat模型的异同。
2.
The Cosserat model of an elastic rod is applied to the analysis of three-dimensional motion of a beam.
将弹性杆的Cosserat模型用于分析梁的三维运动。
6) continuum model
连续体模型
1.
The continuum model breaks through the limit of traditional concept.
大规模电力系统的连续体模型突破了对传统认识的局限性,用波动理论这一崭新的视角研究电力系统的机电动态。
2.
A reduced-order continuum model is proposed to proceed effective and approximate dynamic response analysis of reinforced concrete structures.
应用降价的连续体模型 ,对钢筋混凝土建筑结构进行有效的、近似的动力响应分析。
补充资料:连续搅拌槽反应器数学模型
分子式:
CAS号:
性质:连续搅拌槽反应器是指带有搅拌浆的槽式反应器。搅拌的目的在于使物料体系达到均匀状态,以有利于反应的均匀和传热。反应过程包括体系中物料的物理和化学的变化,表征其体系特性的参数包括温度、压力、液位及体系组分等。所建立这些参数作为状态的体系变量数学关系表达式称为连续搅拌槽反应器的数学模型。
CAS号:
性质:连续搅拌槽反应器是指带有搅拌浆的槽式反应器。搅拌的目的在于使物料体系达到均匀状态,以有利于反应的均匀和传热。反应过程包括体系中物料的物理和化学的变化,表征其体系特性的参数包括温度、压力、液位及体系组分等。所建立这些参数作为状态的体系变量数学关系表达式称为连续搅拌槽反应器的数学模型。
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参考词条