A multi-scale uncertainty quantification model encompassing minimum-size unit cells for effective properties of plain woven composites

IF 6.3 2区 材料科学 Q1 MATERIALS SCIENCE, COMPOSITES Composite Structures Pub Date : 2024-10-24 DOI:10.1016/j.compstruct.2024.118648
Yu-Cheng Yang , Jian-Jun Gou , Chun-Lin Gong , Yue-Er Sun , Shuguang Li
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Abstract

The uncertainty quantification is crucial to the high-precision prediction of composites’ effective properties. However, the unclear input uncertainties of multiscale parameters, complex uncertainty propagations of inter-scale correlations, and unaffordable computational cost of massive simulations are three primary problems at present. In this work, an innovative model with high accuracy and feasible cost for the mechanical property prediction of plain woven composites is developed encompassing minimum-size unit cells and multi-scale uncertainty quantification. For the accuracy holding, an uncertainty analysis process consists of the traceability description, inter-scale propagation and quantification is established. The uncertainties of geometry are described by uniform distributions for fiber, fiber bundle and composite scales, respectively; that of constituent properties is described by normal distributions for fiber and matrix, and its propagations to bundle and composite scales are realized by Nataf transformation methods with the consideration of parameter correlations. For the cost control, minimum-size unit cells are formulated by exhaustive analysis of structural symmetries to reduce the computational cost without accuracy compromising for the single simulation, and 1/8 and 1/16 unit cells compared with traditional full-size ones are obtained. The evolution convergence for statistical uncertainties of effective properties is finally obtained with totally reduced computational cost of 89%.
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平纹编织复合材料有效性能的多尺度不确定性量化模型,包含最小尺寸单元格
不确定性量化对于高精度预测复合材料的有效特性至关重要。然而,多尺度参数的输入不确定性不明确、尺度间相关性的不确定性传播复杂、大规模模拟的计算成本难以承受是目前的三大主要问题。在这项工作中,针对平纹编织复合材料的力学性能预测,开发了一种具有高精度和可行成本的创新模型,包括最小尺寸单元和多尺度不确定性量化。为了保证精度,建立了一个由可追溯性描述、尺度间传播和量化组成的不确定性分析流程。几何形状的不确定性分别由纤维、纤维束和复合材料尺度的均匀分布来描述;成分属性的不确定性由纤维和基体的正态分布来描述,其向纤维束和复合材料尺度的传播则通过考虑参数相关性的 Nataf 转换方法来实现。在成本控制方面,通过对结构对称性的详尽分析,制定了最小尺寸单元,以在不影响单次模拟精度的情况下降低计算成本,与传统的全尺寸单元相比,获得了 1/8 和 1/16 单元。最终获得了有效特性统计不确定性的演化收敛,计算成本完全降低了 89%。
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来源期刊
Composite Structures
Composite Structures 工程技术-材料科学:复合
CiteScore
12.00
自引率
12.70%
发文量
1246
审稿时长
78 days
期刊介绍: The past few decades have seen outstanding advances in the use of composite materials in structural applications. There can be little doubt that, within engineering circles, composites have revolutionised traditional design concepts and made possible an unparalleled range of new and exciting possibilities as viable materials for construction. Composite Structures, an International Journal, disseminates knowledge between users, manufacturers, designers and researchers involved in structures or structural components manufactured using composite materials. The journal publishes papers which contribute to knowledge in the use of composite materials in engineering structures. Papers deal with design, research and development studies, experimental investigations, theoretical analysis and fabrication techniques relevant to the application of composites in load-bearing components for assemblies, ranging from individual components such as plates and shells to complete composite structures.
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