用于模拟横截面面积不均匀、曲率和大挠度梁的离散季莫申科梁模型

B. Duong, Men Van Truong, H. M. Duong, Quoc Kien Giang
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引用次数: 0

摘要

季莫申科梁理论能够准确模拟具有特定特征的梁的行为,因此被广泛应用于各个领域。然而,在分析大挠度梁时,季莫申科梁理论的精确性就大打折扣了。本文介绍了一种拟议的离散季莫申科梁模型,用于预测细长梁在各种载荷作用下的大挠度力学行为。通过有限元分析,结合顺从机构,建立并验证了数学分析。建模结果表明,离散季莫申科梁模型可以准确捕捉双稳态机构的力-位移行为。特别是,在比较离散季莫申科梁模型和有限元分析时,最大力和最小力表现出很强的一致性,百分比差异分别小于 3% 和 5%。在总弹性应变能和最大主应力方面,离散季莫申科梁模型与有限元分析的偏差分别约为 2% 和 7%。所提出的模型可以集成到设计顺应机构的优化算法中。
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DISCRETE TIMOSHENKO BEAM MODEL FOR MODELING BEAMS WITH NON-UNIFORM CROSS-SECTIONAL AREA, CURVATURE, AND LARGE DEFLECTION
The Timoshenko beam theory is widely used in various fields due to its ability to accurately model the behavior of beams with specific characteristics. However, when it comes to analyzing large deflection beams, the Timoshenko beam theory becomes less precise. This paper introduces a proposed discrete Timoshenko beam model to predict the mechanical behavior of slender beams subjected to large deflections under various loadings. A mathematical analysis was developed and validated using finite element analysis in conjunction with a compliant mechanism. The modeling results demonstrate that the force-displacement behavior of a bistable mechanism can be accurately captured by the discrete Timoshenko beam model. In particular, when comparing the discrete Timoshenko beam model and finite element analysis, the maximum and minimum forces exhibited a strong agreement, with a percentage difference of less than 3% and 5%, respectively. In terms of the total elastic strain energy and maximum principal stress, the deviations between the discrete Timoshenko beam model and finite element analysis were approximately 2% and 7%, respectively. The proposed model can be integrated into an optimization algorithm for designing compliant mechanisms.
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