Quasistatic response of a shear-thickening foam: Microstructure evolution and infrared thermography

IF 3.2 4区 工程技术 Q2 CHEMISTRY, APPLIED
KB Bhagavathula, JS Parcon, A. Azar, S. Ouellet, S. Satapathy, CR Dennison, JD Hogan
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引用次数: 4

Abstract

In this work, the authors study the thermo-mechanical response of a dilatant polymeric foam in quasistatic tension and compression, focusing on the links between microstructure, mechanical response, and associated temperature rises in these materials. The authors study these links for a commercially-available shear-thickening foam, named D3O LITE D. Samples were tested under quasi-static conditions for a strain rate of 0.1 s−1 in tension and compression. Micro X-ray computed tomography (XCT) was used to study the evolution of microstructure (pore size and wall thickness) as a function of strain and this was achieved by developing MATLAB-based programs to analyze these microstructural features. The foam specimens were loaded until failure which allowed for the investigation of the elastic, inelastic, and failure regimes. From the XCT images, pore stretching and cell wall tearing are observed in tension, and buckling and pore collapse are observed in compression. These mechanisms are studied in-situ using an infrared thermal camera which record temperature profiles, and temperature measurements are linked back to stress-strain, and temperature-strain responses. For this material, the tensile yield stress was 0.57 ± 0.10 MPa and the elastic modulus was 5.47 ± 0.10 MPa respectively, at a yield strain of 0.10 ± 0.04. At the time of failure, the average temperature of the specimen was found to increase by ∼3.00°C and a local temperature increase of ∼8.00°C was observed in the failure region. In compression, the elastic collapse stress and elastic modulus were found to be 0.130 ± 0.016 MPa and 2.5 ± 0.2 MPa, respectively. The temperature increase in compression at ∼0.83 strain was ∼0.65°C. These results represent some of the first mechanical properties on shear-thickening foams in the literature, and the discoveries on the linkages between the microstructure and the mechanical properties in this study are important for researchers in materials design and modelling.
剪切增厚泡沫的准静态响应:微观结构演变和红外热成像
在这项工作中,作者研究了膨胀聚合物泡沫在准静态拉伸和压缩下的热机械响应,重点研究了这些材料的微观结构、机械响应和相关温升之间的联系。作者研究了一种名为d30lite d的商用剪切增厚泡沫的这些链接。样品在准静态条件下进行了拉伸和压缩应变速率为0.1 s−1的测试。微x射线计算机断层扫描(XCT)用于研究微观结构(孔径和壁厚)随应变的演变,并通过开发基于matlab的程序来分析这些微观结构特征。泡沫试样被加载直到破坏,允许调查弹性,非弹性和破坏制度。从XCT图像上看,拉伸时观察到孔隙拉伸和细胞壁撕裂,压缩时观察到屈曲和孔隙崩塌。利用红外热像仪对这些机制进行了现场研究,红外热像仪记录了温度分布,温度测量结果与应力-应变和温度-应变响应相关联。该材料在屈服应变为0.10±0.04时,拉伸屈服应力为0.57±0.10 MPa,弹性模量为5.47±0.10 MPa。在破坏时,发现试样的平均温度增加了~ 3.00℃,在破坏区域观察到局部温度增加了~ 8.00℃。压缩时的弹性崩溃应力和弹性模量分别为0.130±0.016 MPa和2.5±0.2 MPa。在~ 0.83应变下的压缩温升为~ 0.65℃。这些结果代表了文献中关于剪切增厚泡沫的第一批力学性能,并且本研究中关于微观结构和力学性能之间联系的发现对材料设计和建模的研究人员具有重要意义。
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
Journal of Cellular Plastics
Journal of Cellular Plastics 工程技术-高分子科学
CiteScore
5.00
自引率
16.00%
发文量
19
审稿时长
3 months
期刊介绍: The Journal of Cellular Plastics is a fully peer reviewed international journal that publishes original research and review articles covering the latest advances in foamed plastics technology.
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