Based on different models and magnetic potential field distribution property, different division forms were deployed to satisfy the calculation precision, as well as the saving of the EMS memory and calculation time.
在具体应用到解决实际模型时,结合了磁位场的分布特点,对求解区域进剖分吋,采用了不同的剖分形式,以达到即满足了求解精度,又达到了节省内存和计算时间的目的。
参考来源 - 磁场的有限元模拟与延拓研究·2,447,543篇论文数据,部分数据来源于NoteExpress
得出了温度场的分布特征。
在流速验证的基础上,考察温度场的分布情况。
On the basis of flow velocity verification the distribution of temperature is surveyed.
然后,根据温度场的分布结果计算出模块内部热应力场的分布状态。
The thermal stress distribution can be obtained from the calculated result of temperature field in the packaging.
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