Sifat Tarik, Bending dan Impak Komposit Serat Sabut Kelapa-Polyester dengan Variasi Fraksi Volume

JMPM (Jurnal Material dan Proses Manufaktur) Pub Date : 2019-06-06 DOI:10.18196/JMPM.3132

Gugun Gundara, Muhammad Budi Nur Rahman

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引用次数: 4

Abstract

Abstrak Potensi serat sabut kelapa perlu diteliti untuk dibuat komposit. Tujuan penelitian ini adalah mengetahui pengaruh fraksi volume serat sabut kelapa terhadap sifat tarik, sifat bending dan ketangguhan impak komposit dengan matrik polyester, katalis MEKPO, dan NaOH. Serat sabut kelapa yang digunakan ber diameter 0.2 mm. Komposit dibuat dengan metode cetak tekan pada fraksi volume 20-35%. Pengujian sesuai standar ASTM D638 (uji tarik), ASTM D790 (uji bending) dan ASTM D5941 (uji impak) dengan metode impak izot. Pengamatan foto makro untuk menganalisis kegagalan. Kekuatan tarik dan regangan tarik semakin meningkat dengan peningkatan fraksi volume. Modulus elastisitas tertinggi pada Vf 31,4% sebesar 0,206 GPa dan menjadi 0,11 GPa pada Vf 34,88% dengan kekuatan tarik 17,48 MPa, regangan 16.64%. Kekuatan bending meningkat dengan penambahan fraksi volume. Peningkatan kekuatan bending tertinggi (tanpa perlakuan alkali) pada fraksi volume 33,7% sebesar 34.17 MPa dan modulus bending sebesar 2.10 GPa. Peningkatan fraksi volume serat sabut kelapa dapat meningkatkan ketangguhan impak, dengan nilai tertinggi sebesar 26,42 kJ/m2 pada fraksi volume 35,84%. Penampang patah pada pengujian tarik didominasi patahan tunggal sedangkan pada pengujian bending dan impak terjadi patahan banyak serta terjadi fiber pull-out. Abstract The potential of large coir fibers needs to be investigated to make composites. The purpose of this study was to determine the effect of the volume fraction of coconut coir fiber on tensile properties, bending properties and toughness of composite impacts with a polyester matrix, MEKPO catalyst, and NaOH. Coconut coir fiber used has diameter of 0.2 mm. Composites are made by compressive with fiber volume fraction 20-35%. Tests were according to ASTM D638 standard (tensile test), ASTM D790 (bending test) and ASTM D5941 (impact test) with the izot impact method. Observation macro photo is used to analyze failure. Tensile strength and tensile strain increase with increasing volume fraction. The highest modulus of elasticity at Vf 31.4% was 0.206 GPa and it became 0.11 GPa at Vf 34.88% with a tensile strength of 17.48 MPa, strain of 16.64%. Bending strength increases with the addition of a volume fraction. The highest increase in bending strength (without alkali treatment) at 33.7% volume fraction was 34.17 MPa and bending modulus was 2.10 GPa. Increasing the volume fraction of coconut coir fiber can increase impact toughness with the highest was 26.42 kJ / m2 in the volume fraction of 35.84%. The fracture crossing in tensile testing is dominated by a single fracture while in bending and impact testing there is a lot of fracture and fiber pull-out occurs.

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拉、弯曲和绝缘材料材料复合材料与卷馏分

椰子壳纤维的抽象潜力需要研究才能形成复合材料。这项研究的目的是确定椰壳纤维的体积成分对具有聚酯、聚酯、催化剂MEKPO和NaOH复合材料的复合材料的影响。使用的椰壳纤维直径0.2毫米。复合材料是在20% 35%的体积中通过印刷术制成的。采用采用惯用的方法进行试验，采用惯用的方法进行试验，采用惯用的方法进行试验。宏观照片观察，分析失败。拉力和拉力随着体积分数的增加而增加。Vf 31.4%的Vf 34.88%的弹性模子为0.206 GPa, Vf 34.88%的GPa强度为17.48 MPa，张力为16.64%。弯曲的强度随着音量的增加而增加。最大弯曲(无碱性治疗)强度增加33.7%至34.17 pt，弯曲调至2.10 GPa。椰壳纤维体积的增加会增加impaw的强度，最高分数为35.84%。牵引测试中断裂的横截面控制着单个断层，而在弯曲测试和刀片测试中发生的裂纹和引体向上。纤维需要调查才能合成。这项研究的目的是确定这种化合物对紧张性质、弯曲特性和可合成矩阵的影响。厕所厕所直径0.2毫米。由纤维容积增强20-35%。测试是针对izot - impact的方法进行的。宏观观察照片用于分析失败。肌腱强度和肌腱张力随着体积的增加而增加。弹性城市的最终调是Vf 33.4%， vf34.88%， 1.48 MPa的肌腱强度为16.64%。随着帧的增加，力量在增加。33.7%的帧体积是34.17 MPa和其弯曲模块是2.10 GPa。增加coconut的成分，coir fiber可以增加其高度26.42 kJ / m2的强度在35.84%的帧内。肌腱的夹缝交叉测试是由一段短暂的摆动和冲击测试所控制的，有很多的摆动和纤维引体向上。

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