The Effect of Volume Fraction Variations Epoxy-Rice Straw Composite Fibers with NaOH Treatment on Tensile and Bending Strength

Muhammad Raihan Dwi Wibowo, Cok Istri Putri Kusuma Kencanawati, I Putu Lokantara
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Abstract

Rice straw waste is often a problem for farmers because of the lack of utilization until finally, only burning is done. The use of rice straw for composites aims to increase the economy and maximize the potential of rice straw waste to be more useful in the industry. This research uses epoxy sikadur 52-id mixed hardener in the ratio (2:1) as a matrix, and rice straw fiber as reinforcement, with a fiber length of 3 cm. The composition of fiber and resin uses a volume fraction of 10% fiber: 90% resin, 20% fiber: 80% resin, and 30% fiber: 70% resin. Printing using acrylic prints with a hand lay-up technique. The size of the test specimen refers to ASTM D-3039 for the tensile test and ASTM D790-03 for the bending test. The greatest tensile voltage is found in the volume fraction of 30% fiber of 25,431 MPa. The highest strain occurred in the volume fraction of 30% fiber 1.779. The largest modulus of elasticity comes from the volume fraction of 30% fiber of 1,988 GPa. In the bending test, the largest tensile voltage is found in the volume fraction of 30% fiber, which is 93.260 MPa. The highest strain occurred at a 10% fiber volume fraction of 4.721. The largest modulus of elasticity comes from the volume fraction of 30% fiber which is 3.739 GPa. In both types of testing, it was found that the volume fraction of 30% fiber had the highest tensile and bending strength.
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NaOH处理环氧-稻草复合纤维体积分数变化对拉伸和弯曲强度的影响
水稻秸秆的浪费往往是农民的一个问题,因为缺乏利用,直到最后,只做焚烧。将稻草用于复合材料的目的是提高经济效益,并最大限度地发挥稻草废料在工业上更有用的潜力。本研究采用环氧sikadur 52-id混合硬化剂按比例(2:1)为基体,稻草纤维为增强剂,纤维长度为3cm。纤维与树脂的组成采用10%纤维:90%树脂、20%纤维:80%树脂、30%纤维:70%树脂的体积分数。印刷使用丙烯酸版画与手铺技术。试件尺寸拉伸试验参照ASTM D-3039,弯曲试验参照ASTM D790-03。拉伸电压在30%纤维体积分数为25,431 MPa时最大。当纤维体积分数为30%时,应变最大,为1.779。30%纤维体积分数为1988 GPa时弹性模量最大。在弯曲试验中,纤维体积分数为30%时拉伸电压最大,为93.260 MPa。当纤维体积分数为4.721时,应变最高。纤维体积分数为30%时弹性模量最大,为3.739 GPa。在两种类型的测试中,发现30%纤维体积分数具有最高的拉伸和弯曲强度。
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