收缩:铝改性环氧玻璃纤维复合材料的磨料磨损性能

IF 2.4 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of Molecular and Engineering Materials Pub Date : 2021-07-20 DOI:10.1142/s2251237321930011
Vikram G. Kamble, P. Mishra, Hassan A. Al Dabbas, H. Panda, Johnathan Bruce Fernandez
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引用次数: 0

摘要

长期以来,铝填充环氧树脂模具一直被用于快速模具加工。当应用于低体积塑料零件的制造时,这些模具是非常经济的。为了提高材料的导热性,将金属填充材料添加到材料中,并且玻璃纤维提高了材料的耐磨性。这两个重要参数决定了复合材料的寿命。本工作报道了含5wt.%和10wt.%铝颗粒的铝改性环氧树脂和玻璃纤维复合材料的磨料磨损行为。通过销-盘磨损试验机,研究了复合材料的磨损行为,并采用手工叠层工艺制备了这些样品。以环氧树脂为基体材料,以玻璃纤维和铝为填料进行增强。将含有5 wt.%和10 wt.%Al的复合材料铸造成尺寸为100×100×6mm。将试样机加工成6×6×4mm的尺寸进行研磨试验。对不同尺寸的砂纸,即150、320、600,在不同的滑动距离,即20、40、60m,在5、10和15N的不同载荷和恒定速度下进行研磨试验。磨损造成的重量损失与摩擦系数一起计算。硬度是用洛氏硬度计测得的。对磨损表面的SEM形貌进行了分析,以了解磨损机理。结果表明,铝颗粒的加入有利于低磨损条件。
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Retraction: Abrasive Wear Performance of Aluminium Modified Epoxy-Glass Fiber Composites
For a long time, Aluminum filled epoxies molds have been used in rapid tooling process. These molds are very economical when applied in manufacturing of low volume of plastic parts. To improve the thermal conductivity of the material, the metallic filler material is added to it and the glass fiber improves the wear resistance of the material. These two important parameters establish the life of composites. The present work reports on abrasive wear behavior of Aluminum modified epoxy and glass fiber composite with 5 wt.% and 10 wt.% of aluminum particles. Through pin on disc wear testing machine, we studied the wear behaviors of composites, and all these samples were fabricated by using hand layup process. Epoxy resin was used as matrix material which was reinforced with Glass fiber and Aluminum as filler. The composite with 5 wt.% and 10 wt.% of Al was cast with dimensions 100 × 100 × 6 mm. The specimens were machined to a size of 6 × 6 × 4 mm for abrasive testing. Abrasive tests were carried out for different grit paper sizes, i.e., 150, 320, 600 at different sliding distance, i.e., 20, 40, 60 m at different loads of 5, 10 and 15 N and at constant speed. The weight loss due to wear was calculated along with coefficient of friction. Hardness was found using Rockwell hardness machine. The SEM morphology of the worn out surface wear was analyzed to understand the wear mechanism. Results showed that the addition of Aluminum particles was beneficial for low abrasive conditions.
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Journal of Molecular and Engineering Materials
Journal of Molecular and Engineering Materials MATERIALS SCIENCE, MULTIDISCIPLINARY-
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