Strength and fracture analysis of polymer-granular matter composites at variable weight percent ratio

PISIKA - Journal of the Physics Society of the Philippines Pub Date : 2018-12-24 DOI:10.20526/PISIKA.01A18.08

Carlos Intalan Encarnacion, J. Maquiling

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Abstract

In this study, the optimal weight percent ratio of resin and aggregate for a polymer-granular matter composite (PGMC) was determined in terms of its compressive strength. The PGMC was made with polyester for its resin, and white sand as its aggregate. The weight percent ratios of the PGMC varied as follows: 15:85, 20:80, and 25:75 for resin and aggregate respectively. The PGMC specimens underwent a compression test after a curing period of seven days at room temperature to determine its compression strength. Results indicate that the PGMC with weight percent ratio 25:75 had the highest average compression strength out of the three types at 76.4 MPa which is more than twice the strength of cement-based concrete. The 15:85 and 20:80 PGMCs yielded average compression strengths of 19.8 MPa and 60.8 MPa respectively. The most common fracture type for the PGMCs having weight percent ratios 20:80 and 25:75 was shear, occurring 83.3% of the time. On the other hand, the PGMC having weight percent ratio 15:85 displayed shear wedge fracture for five of the six trials.

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变重量百分比下聚合物颗粒材料的强度与断裂分析

在这项研究中，树脂和骨料的最佳重量百分比的聚合物颗粒物质复合材料(PGMC)确定其抗压强度。PGMC以聚酯为树脂，以白砂为骨料。PGMC在树脂和骨料中的重量百分比分别为15:85、20:80和25:75。PGMC试件在室温下养护7天后进行抗压试验，测定其抗压强度。结果表明:重量比为25:75的PGMC的平均抗压强度最高，达到76.4 MPa，是水泥基混凝土强度的2倍以上;15:85和20:80的pgmc的平均抗压强度分别为19.8 MPa和60.8 MPa。重量百分比为20:80和25:75的pgmc中最常见的裂缝类型是剪切裂缝，发生率为83.3%。另一方面，重量比为15:85的PGMC在6次试验中有5次出现剪切楔形断裂。

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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PISIKA - Journal of the Physics Society of the Philippines

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