The mathematical model adopted in this article can simulate the thermal and mechanical boundary conditions in concrete blocks during placing using water cooling pipes.
本文采用的计算模型能体现混凝土浇筑块在受水管冷却时的热学和力学边界条件。
T he stresses scopes can be calculated by combining the drum or header thermal and mechanical stresses which are obtained from this model.
根据这个结果,可以将此模型计算出的热应力和机械应力合成计算汽包或联箱的应力幅。
The transformation process to turn the thermal deformation caused by temperature factor into the mechanical model is discussed.
对由温度因素引起的热变形转换为力学模型进行了论证。
The model can be used to predict the thermal and mechanical data such as temperature, strain, strain rate distributions.
应用该方法可以给出轧件变形过程中诸如温度场、应变场和应变速率场等各种热力结果。
At the end of the paper, it is pointed out that the thermal-mechanical-hydrological coupling model under the conditions of deep mining is an attractive topic.
文章最后指出深部条件下热-水-力耦合模型是一个值得关注的研究方向。
A modified model of thermal-mechanical noise is developed to make it adaptable to the micromechanical cantilever in high frequency or low temperature.
本文采用能量统计分布方法研究微机械悬臂梁的噪声模型,对热机械噪声理论模型进行了拓展和修正,使之适用于低温和高频条件。
Thermal-mechanical-chemical coupling damage model of brittle rock is established based on damage mechanics.
考虑化学反应对温度的影响,通过温度作用下的弹性模量,提出了岩石温度损伤模型。
An anisotropic damage model and an effective thermal conductivity model were presented based on homogenization techniques for low-porosity brittle rocks subjected to mechanical and thermal loadings.
基于均匀化方法给出低孔隙率脆性岩石在热—力耦合荷载作用条件下的各向异性损伤模型和有效热传导特性模型。
A 3-d FEM model was built up, which included a non-linear coupled thermal-mechanical analysis accounting for the temperature dependency of the thermal and mechanical properties of the material.
建立了成形过程的三维非线性热力耦合有限元模型,模型中考虑了材料热物性参数和力学性能参数与温度的相关性。
A 3-d FEM model was built up, which included a non-linear coupled thermal-mechanical analysis accounting for the temperature dependency of the thermal and mechanical properties of the material.
建立了成形过程的三维非线性热力耦合有限元模型,模型中考虑了材料热物性参数和力学性能参数与温度的相关性。
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