A New Method for Compression Testing of Reinforced Polymers.

IF 4.7 3区 工程技术 Q1 POLYMER SCIENCE Polymers Pub Date : 2024-10-31 DOI:10.3390/polym16213071
Ciprian Ionuț Morăraș, Dorin Husaru, Viorel Goanță, Paul Doru Bârsănescu, Fabian Cezar Lupu, Corneliu Munteanu, Nicanor Cimpoesu, Elena Roxana Cosau
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Abstract

Compressive testing of specimens taken from relatively thin composite plates is difficult, especially due to the occurrence of buckling. To prevent buckling, the central portion of the specimens used for the compression test has smaller dimensions, and the specimens can be guided along their entire length. For these reasons, optical methods, such as digital image correlation (DIC), cannot be used for the compression test and strain rosettes cannot be glued onto the samples to determine Poisson's ratio. In this study, compression tests of a glass fiber-reinforced polymer (GFRP) were conducted using both the ASTM D695 (Boeing version) and a newly proposed method. The new method involves using special specimens that allow T-type rosettes to be bonded to determine Poisson's ratio, whose value of 0.14 was thus determined. SEM images of the failure surfaces were presented and interpreted. A finite element analysis (FEA) of the specimens tested in compression is also presented. The first analyzed case considers the homogeneous and orthotropic composite, loaded with a uniformly distributed force. The normal stress in the central section of the specimen, determined with FEA, has an error of 6.52% compared to that determined experimentally. Additionally, the strain in the center of the strain gauge, determined with FEA, has an error of 4.76% compared to the measured one. In the second case studied with FEA, the sample is loaded with a quasi-concentrated force, which can move in the direction of the symmetry axes of the cross-section, to study the effect of the eccentricity of the compression force on the state of stress. It was shown that the eccentricity of the force has a great influence: the stress distribution in the section of the specimen becomes strongly non-uniform. For a force eccentricity of 0.4 mm in the direction of the OX axis, the minimum stress decreases by 53.7%, and the maximum stress increases by 55.4%. In order to analyze the influence of some manufacturing defects, two other cases were analyzed by FEA, in which it was assumed that the thicknesses of the outer resin layers were modified, making them asymmetrical. For this final FEA, the specimen was considered to be composed of laminates. These results demonstrate the special attention that must be paid to the centric application of force in compression testing.

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增强聚合物压缩测试新方法
对相对较薄的复合板试样进行压缩试验是很困难的,特别是由于会发生屈曲。为了防止屈曲,用于压缩试验的试样中心部分尺寸较小,而且试样可以在整个长度上被引导。由于这些原因,压缩试验无法使用数字图像相关(DIC)等光学方法,也无法在试样上粘贴应变片来测定泊松比。在本研究中,使用 ASTM D695(波音版本)和新提出的方法对玻璃纤维增强聚合物(GFRP)进行了压缩试验。新方法包括使用可粘接 T 型斜面的特殊试样来确定泊松比,从而确定泊松比值为 0.14。演示并解释了失效表面的 SEM 图像。此外,还介绍了压缩测试试样的有限元分析(FEA)。分析的第一种情况是均质和各向同性的复合材料,以均匀分布的力加载。通过有限元分析确定的试样中心部分的法向应力与实验确定的法向应力相比,误差为 6.52%。此外,用有限元分析法确定的应变片中心的应变与测量值相比误差为 4.76%。在使用有限元分析法研究的第二种情况中,样品受到一个准集中力的加载,该力可沿截面对称轴方向移动,以研究压缩力的偏心对应力状态的影响。结果表明,力的偏心率影响很大:试样截面上的应力分布变得非常不均匀。在 OX 轴方向上的力偏心为 0.4 mm 时,最小应力降低了 53.7%,最大应力增加了 55.4%。为了分析一些制造缺陷的影响,还对另外两种情况进行了有限元分析,其中假定外层树脂的厚度发生了变化,使其变得不对称。在最后一次有限元分析中,试样被视为由层压板组成。这些结果表明,在压缩试验中必须特别注意以中心施力。
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来源期刊
Polymers
Polymers POLYMER SCIENCE-
CiteScore
8.00
自引率
16.00%
发文量
4697
审稿时长
1.3 months
期刊介绍: Polymers (ISSN 2073-4360) is an international, open access journal of polymer science. It publishes research papers, short communications and review papers. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the length of the papers. The full experimental details must be provided so that the results can be reproduced. Polymers provides an interdisciplinary forum for publishing papers which advance the fields of (i) polymerization methods, (ii) theory, simulation, and modeling, (iii) understanding of new physical phenomena, (iv) advances in characterization techniques, and (v) harnessing of self-assembly and biological strategies for producing complex multifunctional structures.
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