通过对两种不同板坯水槽设计形式进行热力耦合分析,研究了不同水槽设计对结晶器铜板及铸坯初凝坯壳温度分布影响。
The effect of different water groove design of the copper plates on the temperature distribution of the mold and the solidifying shell has been studied through thermo-mechanical coupled analysis.
根据铝带坯连续铸轧过程瞬态凝固、流变成形的特点,同时考虑影响辊套与铸坯传热界面的接触热导问题,建立了铝带坯连续铸轧过程热力耦合有限元分析模型。
According to the characteristics of transient solidification and rheological forming in continuous roll casting process, a set of thermal-mechanical coupling equations had been set up.
利用非平衡热力学原理,对吸附蒸馏过程中各个热力学传输流之间的耦合进行了理论分析。
The coupling between the mass transfer flux and adsorption rates of all components in an adsorptive distillation process was analyzed according to non equilibrium thermodynamics.
考虑传热接触耦合作用的热力学分析问题大量存在于工程中,分析的难点是必须考虑热与可移动接触边界间的耦合作用。
The thermal mechanical analysis for the coupled problems of interaction between heat transfer and contact processes can be found in many engineering fields.
针对粉末多孔材料,采用体积可压缩刚粘塑性热力耦合有限元法对其等径角挤压过程进行模拟分析。
The densification and deformation behavior of porous materials during the ECAP process were investigated by (thermo -) mechanical coupling finite element method.
考察了温度、时间和通气次数对系统热力学性质的影响。根据反应的耦合原理和热力学分析,提出萃取剂选择的原则。
According to the principle of "the coupling re-action", the rule of solvent selection was proposed based on thermodynamic analysis.
本文采用热力耦合有限元方法对轧制过程轧件表面裂纹演变行为进行了分析。
In the paper, the behavior of surface cracks during rolling was simulated by thermal-mechanical finite element method.
采用FORTRAN语言对有限元软件DEFORM - 2d进行了二次开发,实现了2519铝合金多道次热轧过程的热力-组织耦合分析。
FORTRAN language was secondarily used to develop DEFORM-2D software, a heat-force-microstructure simulation on the multi-pass hot rolling of 2519 aluminum alloy was realized.
采用FORTRAN语言对有限元软件DEFORM - 2d进行了二次开发,实现了2519铝合金多道次热轧过程的热力-组织耦合分析。
FORTRAN language was secondarily used to develop DEFORM-2D software, a heat-force-microstructure simulation on the multi-pass hot rolling of 2519 aluminum alloy was realized.
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