1) improved refined mesh method
改进细化网格法
1.
With the aim of keeping the calculation accuracy unchanged and shortening calculating time,the influence of initial velocity field on calculating time and calculated results were discussed,where the initial velocity field was set differently by the primary,G function or improved refined mesh methods.
在保证计算精度的情况下,以缩短计算时间为目标,研究了初等方法、G函数法和改进细化网格法设定初速度场对计算时间和计算结果的影响。
2) developed method of lattice
改进网格法
1.
Using developed method of lattice,the optimun model about the water gate′s platter in over all structure was presented,and with Fortran 77 new program was provided.
建立了半无限深弹性体地基上水闸整体式平底板结构应力分析模型,提出了用改进网格法对整体式平底板结构的优化模型,用Fortran77语言编制了相应的优化设计程序。
3) Improved element-free Galerkin method(IEFG)
改进型无网格法
4) Modified fluid-in-cell method
改进型流体网格法
5) improved element-free Galerkin method
改进型无网格伽辽金法
1.
Study on the improved element-free Galerkin method and its application
改进型无网格伽辽金法(IEFG)的研究及其应用
6) fine mesh
细化网格
1.
In order to simulate the stress distribution for typical knuckle details of ship structure more precisely,the algorithm for fine meshing is studied in this paper.
为更精确模拟折角型船体结构节点的应力分布,对折角型船体结构节点有限元细化网格进行了算法研究,用MSC/Patran的PCL语言,开发了相应的细化网格有限元分析工具,实现了折角型船体结构节点的网格划分和优化分析的快速化。
补充资料:改进
改变旧有情况,使有所进步:~工作ㄧ操作方法有待~。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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