A STRAIN-AND-DISPLACEMENT-BASED VARIATIONAL METHOD APPLIED TO GEOMETRICALLY NON-LINEAR SHELLS

C. C. Celigoj

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A STRAIN-AND-DISPLACEMENT-BASED VARIATIONAL METHOD APPLIED TO GEOMETRICALLY NON-LINEAR SHELLS

机译：基于应变和位移的变分方法应用于几何非线性壳

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A geometrically non-linear hybrid nine-node finite 2D-shell element is presented. The theoretical formulation is based on a Reissner functional in strains and displacements. The increments of which are interpolated with respect to different spatially fixed triads: both the displacement and rotation increments in the material frame (global rectangular Cartesian) and the Green-Lagrange-strain increments in a suitably chosen local rectangular Cartesian in the centroid of the considered element in the reference configuration. Corresponding transformations then deliver the components on the shell mid-surface. Although a single element possesses one spurious zero-energy mode, an assemblage performs excellently (also in comparison with a full-rank element).

机译：提出了一种几何非线性混合九节点有限二维壳单元。理论公式基于应变和位移的Reissner函数。相对于不同的空间固定三重轴插补其增量：材料框架中的位移和旋转增量（全局矩形笛卡尔坐标）以及在适当考虑的质心中适当选择的局部矩形笛卡尔坐标中的Green-Lagrange应变增量参考配置中的元素。然后，相应的转换将组件传递到壳的中表面。尽管单个元素具有一个虚假的零能量模式，但组合的性能极好（与全等级元素相比也是如此）。

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来源
《International Journal for Numerical Methods in Engineering》 |1996年第13期|共18页
作者
C. C. Celigoj;
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原文格式 PDF
正文语种 eng
中图分类工程基础科学;
关键词
variational methods; hybrid finite elements; geometrical non-linearity; shells;

机译：变分方法混合有限元几何非线性壳;

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1. A STRAIN-AND-DISPLACEMENT-BASED VARIATIONAL METHOD APPLIED TO GEOMETRICALLY NON-LINEAR SHELLS [J] . C. C. Celigoj International Journal for Numerical Methods in Engineering . 1996,第13期

机译：基于应变和位移的变分方法应用于几何非线性壳
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4. Forced geometrically non-linear vibration of cylindrical shallow shells by the hierarchical finite element, shooting and Newton methods [C] . P. Ribeiro 4th International Conference on Structural Dynamics Vol.1, Sep 2-5, 2002, Munich, Germany . 2002

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5. A simple four-node solid shell element for geometric non-linear static and dynamic analysis. [D] . Kemp, Brian Lee. 1999

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6. Differences between sliding semi-landmark methods in geometric morphometrics with an application to human craniofacial and dental variation [O] . S Ivan Perez, Valeria Bernal, Paula N Gonzalez 2006

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7. INTERPRETATION FOR THE APPLICATION OF REDUCED STIFFNESS METHOD TO THE SHELL STRUCTURES HAVING GEOMETRICALLY NON-LINEAR PREBUCKLING DEFLECTION BEHAVIOUR [O] . SEISHI YAMADA 1988

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8. Incremental Variational Method for the Large Displacement Analysis of Shells with Geometric Imperfections [R] . Mak, C. K., Kao, D. W., Lee, L. H. N. 1972

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A STRAIN-AND-DISPLACEMENT-BASED VARIATIONAL METHOD APPLIED TO GEOMETRICALLY NON-LINEAR SHELLS

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