Analysis of simulation results emphasizes on the complex 3d flow due to cooling near leading edge and blade cooling characteristics.
根据计算结果重点对前缘气膜冷却复杂三维流动以及整个叶片的气膜冷却特性进行分析。
SHELLCV can simulate the process of mould-filling in RTM for the 3d complex shape thin parts and predict the resin flow front advancement and the distribution of pressure field at any instant in time.
SHELLCV程序包含三角形壳元和矩形壳元两种单元,可以模拟复杂形状三维薄壁构件的RTM制造工艺注模过程,得到任意时刻的树脂流动前峰曲线、压力场分布。
The simulation calculation results show that the method can be used in 3D transient flow numerical simulation in the area of complex power machinery system.
数值计算结果表明,该方法可用于复杂机械系统内流场三维瞬态流动的数值计算。
Taking advantages of flow effect on the tip, micro-tip direct writing (MTDW) is put forward as an innovative RP method to fabricate high resolution and complex 3d structure.
利用流体在微尖上流动的性质,提出并介绍了尖笔直写快速成形技术,搭建了高精度三维成形平台。
Taking advantages of flow effect on the tip, micro-tip direct writing (MTDW) is put forward as an innovative RP method to fabricate high resolution and complex 3d structure.
利用流体在微尖上流动的性质,提出并介绍了尖笔直写快速成形技术,搭建了高精度三维成形平台。
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