夹芯梁抗剪机理及抗剪强度方程

Ataur Rahman, T. Ueda
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引用次数: 3

摘要

本研究的目的是消除现有剪切设计方程的局限性,建立一套完整的合理且计算效率高的剪切设计方程。为此,基于二维非线性有限元分析,建立了开式和满式夹层梁的宏观物理模型,该模型能清晰地反映夹层梁不同部位对抗剪力的贡献。该模型还显示了实验结果与分析结果之间令人满意的相关性。利用二维有限元程序对一系列与试验试件相结合的分析试件进行了分析,并推导出了一套完整的抗剪模型的抗剪强度方程。完整夹层梁的方程与实验和分析结果吻合较好,而开放夹层梁的方程需要进一步研究以提高其精度,此处不作介绍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Shear Resisting Mechanism and Shear Strength Equation for Sandwich Beams
The aim of this study is to eliminate the limitation of existing shear design equations and to establish a complete set of rational as well as computationally efficient shear design equations. On this goal, a macro physical model, based on 2D nonlinear FEM analysis, for both open and full sandwich beams are developed which can clearly demostrate the contributions of different parts of the sandwich beam in resisting shear force. The proposed model also shows a satisfactory correlation between the experimental and the analytical results. A series of analytical specimens in connection with experimental one are analyzed by engaging a 2D-FEM program and a complete set of shear strength equations are derived with the help of that proposed shear resisting model. The equations for full sandwich beam show a good agreement with experimental and analytical results, whereas equations for open sandwich beam require further investigation to increase their level of accuracy and are not presented here.
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