用混合特雷弗茨应力元素模拟板材弯曲中的点力和力矩效应

IF 2.7 3区工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY

International Journal for Numerical Methods in Engineering Pub Date : 2024-10-29 DOI:10.1002/nme.7587

J. A. Teixeira de Freitas, C. Tiago, E. M. B. R. Pereira

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引用次数: 0

摘要

用于板材弯曲的混合-特雷弗茨应力元素的公式已扩展到集中力和力矩的建模，可以是规定载荷，也可以是点支承处的反作用力。由于弯曲、扭转和剪切场都是超奇异值，因此该元素的柔性矩阵需要使用有限部分积分概念。此外，还需要确认在形状严重变形的情况下柔性的正定义性。测试说明了外加集中力和力矩的建模，以及边界层和点反作用力效应的组合。使用基于应力的混合混合元素（HMS）和基于位移的混合元素（MITC）获得的收敛解验证了获得的结果。

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Modelling the effect of point forces and moments in plate bending with hybrid-Trefftz stress elements

The formulation of the hybrid-Trefftz stress element for plate bending is extended to the modelling of concentrated forces and moments, either as prescribed loads or as reactions at point supports. As the bending, torsion and shear fields are hypersingular, the flexibility matrix of the element involves the use of the finite part integration concept. In addition, it requires the confirmation of the positive-definiteness of the flexibility under gross shape distortion. The tests illustrate the modelling of applied concentrated forces and moments and also the combination of boundary layer and point reaction effects. The results obtained are validated using converged solutions obtained with a stress-based hybrid-mixed element (HMS) and a displacement-based mixed element (MITC).

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来源期刊

International Journal for Numerical Methods in Engineering 工程技术-工程：综合

CiteScore

5.70

自引率

6.90%

发文量

276

审稿时长

5.3 months

期刊介绍： The International Journal for Numerical Methods in Engineering publishes original papers describing significant, novel developments in numerical methods that are applicable to engineering problems. The Journal is known for welcoming contributions in a wide range of areas in computational engineering, including computational issues in model reduction, uncertainty quantification, verification and validation, inverse analysis and stochastic methods, optimisation, element technology, solution techniques and parallel computing, damage and fracture, mechanics at micro and nano-scales, low-speed fluid dynamics, fluid-structure interaction, electromagnetics, coupled diffusion phenomena, and error estimation and mesh generation. It is emphasized that this is by no means an exhaustive list, and particularly papers on multi-scale, multi-physics or multi-disciplinary problems, and on new, emerging topics are welcome.