Impact properties of an end of life tires’ rubber. Numerical validation considering large strain and strain rate conditions

IF 5 2区 材料科学 Q1 MATERIALS SCIENCE, CHARACTERIZATION & TESTING Polymer Testing Pub Date : 2024-07-10 DOI:10.1016/j.polymertesting.2024.108509
J. González-Vega, G. Castillo-López, F. García-Sánchez
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Abstract

The objective of the authors is to demonstrate that the inclusion of renewed rubber from recycled end of life tires (ELT) can improve the performance of any structural system designed to dissipate impact energy. An interesting application would be its use in road safety barriers. This research starts with the rigorous characterization of the recycled material in order to include it in a viable numerical model. The authors presented, in a previous work (*), the experimental viscoelastic properties of recycled rubber, obtained under impact conditions. Bergström–Boyce (BB) nonlinear viscoelastic model was selected as the most suitable to fit the material behavior. This model is defined by nine material constants that are impossible to obtain, uniquely and directly, considering that only compression test results are available as input data. To overcome this challenge, optimization methods were applied resulting in as many sets of parameters as used optimization methods were considered and, moreover, remarkable differences between constants were observed. Solving this problem is the motivation of the present research: the validation of the optimization method by mean of the numerical evaluation of the obtained sets. The software considered for the numerical evaluation of impact tests (LS-DYNA®) had two slightly different implementations for the BB model: the original, based on the work published in 2009 by Dal & Kaliske and a more recent one implemented by Bergström, based on his works published in 1998 and 2000. This leads to a new question: which is the most appropriate implementation-optimization method for calibrating this material? This paper provides the answer to this question carrying out a complete comparative numerical analysis of all sets by means of explicit dynamics simulations. All calibrations, using the original LS-DYNA® implementation, were in perfect agreement with the experimental results. However, only one optimization method produced acceptable results for the most recent approach. A robust method to characterize recycled rubber from recycled tires using the Bergström–Boyce nonlinear viscoelastic model is presented, despite the experimental limitations (González-Vega et al. 2022).

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报废轮胎橡胶的冲击特性。考虑大应变和应变率条件的数值验证
作者的目的是证明,加入从回收的报废轮胎(ELT)中提取的再生橡胶可以提高任何旨在消散冲击能量的结构系统的性能。一个有趣的应用是将其用于道路安全屏障。这项研究首先要对回收材料进行严格的表征,以便将其纳入可行的数值模型中。作者在之前的作品(*)中介绍了在冲击条件下获得的再生橡胶粘弹性实验特性。Bergström-Boyce (BB) 非线性粘弹性模型被选为最适合材料行为的模型。该模型由九个材料常数定义,考虑到只有压缩测试结果可作为输入数据,这些常数不可能唯一且直接地获得。为了克服这一难题,我们采用了优化方法,结果是使用了多少套优化方法,就考虑了多少套参数,而且还观察到了常数之间的显著差异。解决这一问题是本研究的动机:通过对获得的参数集进行数值评估来验证优化方法。用于冲击试验数值评估的软件(LS-DYNA®)有两种略有不同的 BB 模型实现方法:一种是基于 Dal & Kaliske 于 2009 年发表的著作的原始实现方法,另一种是基于 Bergström 于 1998 年和 2000 年发表的著作的最新实现方法。这就引出了一个新问题:哪种实施优化方法最适合校准这种材料?本文通过显式动力学模拟对所有数据集进行了全面的比较数值分析,为这一问题提供了答案。使用原始 LS-DYNA® 实现的所有标定结果都与实验结果完全一致。然而,对于最新的方法,只有一种优化方法得出了可接受的结果。尽管存在实验上的限制,但仍介绍了一种使用 Bergström-Boyce 非线性粘弹性模型表征再生轮胎中再生橡胶的可靠方法(González-Vega 等人,2022 年)。
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来源期刊
Polymer Testing
Polymer Testing 工程技术-材料科学:表征与测试
CiteScore
10.70
自引率
5.90%
发文量
328
审稿时长
44 days
期刊介绍: Polymer Testing focuses on the testing, analysis and characterization of polymer materials, including both synthetic and natural or biobased polymers. Novel testing methods and the testing of novel polymeric materials in bulk, solution and dispersion is covered. In addition, we welcome the submission of the testing of polymeric materials for a wide range of applications and industrial products as well as nanoscale characterization. The scope includes but is not limited to the following main topics: Novel testing methods and Chemical analysis • mechanical, thermal, electrical, chemical, imaging, spectroscopy, scattering and rheology Physical properties and behaviour of novel polymer systems • nanoscale properties, morphology, transport properties Degradation and recycling of polymeric materials when combined with novel testing or characterization methods • degradation, biodegradation, ageing and fire retardancy Modelling and Simulation work will be only considered when it is linked to new or previously published experimental results.
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