Uncertainty quantification for viscoelastic composite materials using time-separated stochastic mechanics

IF 3 3区 工程技术 Q2 ENGINEERING, MECHANICAL
Hendrik Geisler , Philipp Junker
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Abstract

With the growing use of composite materials, the need for high-fidelity simulation techniques of the related behavior increases. One important aspect to take into account is the uncertainty of the response due to fluctuations of the material parameters of the constituent materials of the homogenized composite. This inherent randomness leads to stochastic stresses on the microscale and uncertain macroscale response. Until now, the viscoelastic response of the matrix material seriously hindered the application of efficient methods to predict the composite material behavior. In this work, a novel method based on the time-separated stochastic mechanics (TSM) is developed to address this problem. We present how the uncertainty of the microscale stresses of a representative volume element and the homogenized macroscale stresses can be approximated with a low number of deterministic finite element simulations. Quantities of interest are the expectation, standard deviation, and the probability distribution function of the stresses on micro- and macroscale. The results showcase that the TSM is able to approximate the reference results very well at a minimal fraction of the computational cost needed for Monte Carlo simulations.

Abstract Image

利用分时随机力学量化粘弹性复合材料的不确定性
随着复合材料应用的不断增加,对相关行为的高保真模拟技术的需求也随之增加。需要考虑的一个重要方面是均质化复合材料的组成材料参数波动所导致的响应不确定性。这种固有的随机性会导致微观上的随机应力和宏观上的不确定响应。迄今为止,基体材料的粘弹性响应严重阻碍了预测复合材料行为的有效方法的应用。在本研究中,我们开发了一种基于时间分离随机力学(TSM)的新方法来解决这一问题。我们介绍了如何用较少的确定性有限元模拟来近似代表体积元素的微观应力和均匀化宏观应力的不确定性。相关量包括微观和宏观应力的期望值、标准偏差和概率分布函数。结果表明,TSM 能够很好地近似参考结果,而所需的计算成本仅为蒙特卡罗模拟的一小部分。
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来源期刊
Probabilistic Engineering Mechanics
Probabilistic Engineering Mechanics 工程技术-工程:机械
CiteScore
3.80
自引率
15.40%
发文量
98
审稿时长
13.5 months
期刊介绍: This journal provides a forum for scholarly work dealing primarily with probabilistic and statistical approaches to contemporary solid/structural and fluid mechanics problems encountered in diverse technical disciplines such as aerospace, civil, marine, mechanical, and nuclear engineering. The journal aims to maintain a healthy balance between general solution techniques and problem-specific results, encouraging a fruitful exchange of ideas among disparate engineering specialities.
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