Multi-Parameter Layup Optimization and the Effect of Layup Homogenization on the Bending Compliance Matrix of Coupled Composites

IF 1.3 Q3 ENGINEERING, MECHANICAL
T. Czigány, Brúnó Vermes
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引用次数: 0

Abstract

The behaviour of fibre-reinforced composites greatly depends on their layup structures. Through a full-field layup optimization study based on multiple parameters, this paper investigates how different properties change with the layup. The aim was to maximize the extension-twist coupling performance while ensuring adequate bending stiffness and low thermal warpage to make the laminate suitable for shape-adaptive helicopter rotor blade application. The Classical Laminate Theory-based calculations revealed that satisfying the bending compliance and thermal warpage criteria significantly limited the achievable extension-twist performance. The warpage limit affected the desired coupling behaviour more because both properties are driven by terms in the extensional-bending compliance matrix, unlike bending compliance. Symmetric laminates do not have an intrinsic extension-twist capability, but some asymmetric laminates demonstrated significant coupling performance while being practically warpage-free (based on the ISO2768 standard). The results prove that the advantages of asymmetric laminates can outweigh their sometimes negligible disadvantages. The paper also investigates if there is a universal tendency in how layup homogenization affects the terms of the bending compliance matrix of composites. Through analytical calculations, we showed that depending on the layup of the sub-laminate, homogenization can increase or reduce the value of any term in the bending compliance matrix; therefore, there is no universal tendency. Based on these results, layup homogenization cannot only be exploited for its most general purpose – warpage mitigation – but also for improving other characteristics of the laminate (e.g. reducing the bending compliance for increased bending stiffness or increasing the bend-twist compliance for improved coupling performance).
多参数铺层优化及铺层均匀化对耦合复合材料弯曲柔度矩阵的影响
纤维增强复合材料的性能在很大程度上取决于其层状结构。通过多参数的全油田铺层优化研究,探讨了不同性质随铺层的变化规律。其目的是最大限度地提高拉伸-扭转耦合性能,同时确保足够的弯曲刚度和低热翘曲,使层压板适合形状自适应直升机旋翼叶片的应用。基于经典层压板理论的计算表明,满足弯曲顺应性和热翘曲准则严重限制了可实现的伸扭性能。翘曲极限对期望的耦合行为影响更大,因为这两种特性都是由伸展弯曲柔度矩阵中的项驱动的,而不像弯曲柔度。对称层压板不具有固有的拉伸扭转能力,但一些非对称层压板在几乎无翘曲的情况下表现出显著的耦合性能(基于ISO2768标准)。结果证明,不对称层压板的优点可以超过它们有时可以忽略不计的缺点。本文还研究了叠层均匀化对复合材料弯曲柔度矩阵项的影响是否存在普遍趋势。通过分析计算,我们发现,根据分层层的不同,均匀化可以增加或减少弯曲柔度矩阵中任何一项的值;因此,没有普遍的趋势。基于这些结果,铺层均匀化不仅可以用于其最一般的目的-翘曲缓解-而且还可以用于改善层压板的其他特性(例如,减少弯曲顺应性以增加弯曲刚度或增加弯曲扭曲顺应性以改善耦合性能)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
2.80
自引率
7.70%
发文量
33
审稿时长
20 weeks
期刊介绍: Periodica Polytechnica is a publisher of the Budapest University of Technology and Economics. It publishes seven international journals (Architecture, Chemical Engineering, Civil Engineering, Electrical Engineering, Mechanical Engineering, Social and Management Sciences, Transportation Engineering). The journals have free electronic versions.
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