Effects of water absorption on the mechanical properties of RF/CSP/VE hybrid composite

INTERNATIONAL CONFERENCE ON MATERIALS, MANUFACTURING AND MACHINING 2019 Pub Date : 2019-07-23 DOI:10.1063/1.5117915

S. Venkatarajan, A. Athijayamani, R. Parthiban, S. Navaneethakrishnan

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引用次数: 3

Abstract

The effects of water absorption on the mechanical properties of Roselle Fiber/Coconut ShellParticulate/Vinyl Ester (RF/CSP/VE) hybrid composite were studied in this paper, based on the content of Roselle Fiber (RF) and Coconut Shell Particulate (CSP). The RF/CSP/VE hybrid composites were prepared on dry basis and their mechanical properties are evaluated for comparison with the mechanical properties of RF/CSP/VE hybrid composite at wet condition. The CSPs are added with RFs at four different concentrations (0, 5, 10 and 15% by weight) at dry condition. The content of Roselle fiber is fixed as 20 wt%. Composites are prepared by hand lay-up technique. It was observed that the tensile and flexural properties of RF/VE composite at dry condition are increased linearly with the increase of CSP content. The impact strength of RF/VE composite at dry condition is not significantly affected by the addition of CSPs. The percentage of water absorption of RF/VE composite was decreased with the addition of CSP content. The highest and lowest percentage of water absorption was identified at 20RF/5CSP and 20RF/15CSP composites respectively. Mechanical properties of RF/VE and RF/CSP/VE composites at dry condition are higher than the mechanical properties of RF/VE and RF/CSP/VE composites at wet condition.The effects of water absorption on the mechanical properties of Roselle Fiber/Coconut ShellParticulate/Vinyl Ester (RF/CSP/VE) hybrid composite were studied in this paper, based on the content of Roselle Fiber (RF) and Coconut Shell Particulate (CSP). The RF/CSP/VE hybrid composites were prepared on dry basis and their mechanical properties are evaluated for comparison with the mechanical properties of RF/CSP/VE hybrid composite at wet condition. The CSPs are added with RFs at four different concentrations (0, 5, 10 and 15% by weight) at dry condition. The content of Roselle fiber is fixed as 20 wt%. Composites are prepared by hand lay-up technique. It was observed that the tensile and flexural properties of RF/VE composite at dry condition are increased linearly with the increase of CSP content. The impact strength of RF/VE composite at dry condition is not significantly affected by the addition of CSPs. The percentage of water absorption of RF/VE composite was decreased with the addition of CSP content....

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吸水率对RF/CSP/VE杂化复合材料力学性能的影响

以玫瑰纤维(RF)和椰壳颗粒(CSP)的含量为基础，研究了吸水率对玫瑰纤维/椰壳颗粒/乙烯基酯(RF/CSP/VE)混杂复合材料力学性能的影响。在干燥条件下制备了RF/CSP/VE杂化复合材料，对其力学性能进行了评价，并与RF/CSP/VE杂化复合材料湿态力学性能进行了比较。在干燥条件下，将csp加入四种不同浓度的rf(0、5、10和15%重量比)。玫瑰纤维的含量固定为20%。复合材料是通过手工铺层技术制备的。结果表明，RF/VE复合材料在干燥条件下的拉伸和弯曲性能随CSP含量的增加而线性增加。csp的加入对RF/VE复合材料在干燥条件下的冲击强度影响不显著。RF/VE复合材料的吸水率随CSP含量的增加而降低。20RF/5CSP和20RF/15CSP复合材料的吸水率分别为最高和最低。RF/VE和RF/CSP/VE复合材料在干燥条件下的力学性能高于RF/VE和RF/CSP/VE复合材料在潮湿条件下的力学性能。以玫瑰纤维(RF)和椰壳颗粒(CSP)的含量为基础，研究了吸水率对玫瑰纤维/椰壳颗粒/乙烯基酯(RF/CSP/VE)混杂复合材料力学性能的影响。在干燥条件下制备了RF/CSP/VE杂化复合材料，对其力学性能进行了评价，并与RF/CSP/VE杂化复合材料湿态力学性能进行了比较。在干燥条件下，将csp加入四种不同浓度的rf(0、5、10和15%重量比)。玫瑰纤维的含量固定为20%。复合材料是通过手工铺层技术制备的。结果表明，RF/VE复合材料在干燥条件下的拉伸和弯曲性能随CSP含量的增加而线性增加。csp的加入对RF/VE复合材料在干燥条件下的冲击强度影响不显著。RF/VE复合材料的吸水率随CSP含量的增加而降低....

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INTERNATIONAL CONFERENCE ON MATERIALS, MANUFACTURING AND MACHINING 2019

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