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首页> 外文期刊>Computers & Structures >A 4-node hybrid stress-function (HS-F) plane element with drilling degrees of freedom less sensitive to severe mesh distortions
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A 4-node hybrid stress-function (HS-F) plane element with drilling degrees of freedom less sensitive to severe mesh distortions

机译:具有自由度的4节点混合应力函数(HS-F)平面单元对严重的网格变形不敏感

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摘要

A simple but robust 4-node hybrid stress-function (HS-F) membrane element with drilling degrees of freedom is developed based on the principle of minimum complementary energy. Its stress fields are derived from the first seven fundamental analytical solutions of the Airy stress function. The assumed displacements along element boundaries employ compatible mode of Allman for which the nodal drilling degrees of freedom are considered. Numerical results show that the proposed new element, denoted as HSF-Q46-7P, exhibits much improved numerical accuracy and robust performance. In particular, the element performs well even when the element shape degenerates into a triangle or concave quadrangle.
机译:基于最小互补能原理,开发了一种具有钻孔自由度的简单但坚固的四节点混合应力函数(HS-F)膜元件。它的应力场来自艾里应力函数的前七个基本解析解。沿单元边界的假定位移采用Allman的兼容模式,其中考虑了节点钻井自由度。数值结果表明,提出的新元件HSF-Q46-7P的数值精度和鲁棒性大大提高。特别地,即使当元件形状退化为三角形或凹入的四边形时,元件也表现良好。

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