模具复合材料的体积成分对玻璃复合材料性质的影响

M. Fakhruddin, I. Mashudi, Mochamad Muzaki, H. Firmansyah, Bayu Pranoto, H. Wicaksono
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引用次数: 0

摘要

纤维增强复合材料可分为两部分,即短纤维复合材料和长纤维复合材料。长纤维比短纤维结实。长纤维(连续纤维)的敷设效率比短纤维高,但短纤维比长纤维容易敷设。纤维长度影响纤维复合材料的可加工性。从理论上看,长纤维可以将载荷和应力从应力点继续传递给另一根纤维。在本研究中,随机基体方向的短切玻璃纤维复合材料相对于聚酯树脂的体积发生了变化。采用压模法制作锻造玻璃纤维复合材料,减少复合成型过程中气泡的产生。采用三点弯曲和拉伸试验方法测试锻造玻璃纤维复合材料的力学性能。预期的结果是随机短切玻璃纤维与聚酯树脂的体积分数的变化。本研究拟获得的TKT为TKT level 3,这是一项分析性研究,支持预测玻璃纤维与树脂之间的体积分数对锻造玻璃纤维复合材料拉伸和弯曲强度力学性能的影响
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Pengaruh Fraksi Volume Terhadap Sifat Mekanis Komposit Forged Fiberglass Metode Compression Mould
Fiber-reinforced composites can be classified into two parts, namely short fiber composites and long fiber composites. Long fibers are stronger than short fibers. Long fiber (continuous fiber) is more efficient in laying than short fiber but short fiber is easier to lay than long fiber. Fiber length affects the processability of the fiber composite. Judging from the theory, long fibers can continue the load and stress from the stress point to the other fiber. In this study, the volume of chopped glass fiber composite with random matrix direction was varied with respect to polyester resin. Making forged fiberglass composites with the press mold method to minimize the occurrence of air bubbles during the composite molding process. Testing the mechanical properties of the forged fiberglass composite using the three-point bending and tensile testing methods. The expected result is the variation of the volume fraction of random chopped glass fiber to polyester resin. The TKT to be achieved from this research is TKT level 3, which is an analytical study that supports the prediction of the performance of the effect of the volume fraction between glass fiber and resin on the mechanical properties of the tensile and bending strength of forged glass fiber composites
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