Morphology and Physico-Mechanical Properties of Resin-bonded Palm Kernel Shell and Coconut Shell Grain-based Sandpaper Composites

Q4 Engineering

Nigerian Journal of Technological Development Pub Date : 2023-01-28 DOI:10.4314/njtd.v19i4.11

H. A. Ajimotokan, A. A. Samuel, T. Ajiboye, T. Ogedengbe, I. O. Alabi

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Abstract

Due to the challenges associated with using crude oil-derived phenolic- or thermoplastics-based materials, agro-based composites have been used as alternative abrasive grains for abrasive tool manufacturing. This paper examines the morphology and physico-mechanical properties of resin-bonded palm kernel shell (PKS) and coconut shell (CNS) grain-based sandpaper composites and their wear performance. The PKS and CNS were collected, pulverised and screened into 250 and 500 μm grainsizes and mixed at ratios of 1:1, 1:2 and 2:1, respectively. Methyl-ethyl-ketone-peroxide and cobalt naphthalene of 1.5 wt. % each were utilised as hardener and catalyst, respectively for proper bonding of the aggregates with unsaturated polyester resin of compositions 12, 15, 18, 21 and 24 wt. %, respectively. To produce the sandpaper samples, the aggregates were compacted at a pressure of 15 MPa and the samples were cured and their morphology, mechanical, and wear properties were investigated.The shatter index, hardness, and compressive strength varied from 66.36% to 95.76%, 6.52 to 11.3 HRB, and 4.41 to 7.24 MPa, respectively. The wear resistance varied from 0.94 to 1.54 mg/m at 50 oC, and 1.02 to 2.09 mg/m at 150 oC. The properties of the aggregates made from PKS and CNS were found to have much influence on the performance parameters of sandpaper composites.

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树脂粘合棕榈果壳和椰子果壳颗粒基砂纸复合材料的形态和物理力学性能

由于使用原油衍生的酚醛或热塑性塑料基材料面临的挑战，农用复合材料已被用作研磨工具制造的替代磨粒。本文研究了树脂粘结棕榈仁壳（PKS）和椰子壳（CNS）颗粒基砂纸复合材料的形态、物理力学性能及其磨损性能。PKS和CNS被收集、粉碎并筛选成250和500μm的粒度，并分别以1:1、1:2和2:1的比例混合。分别使用1.5重量%的甲基乙基酮过氧化物和钴萘作为硬化剂和催化剂，分别使聚集体与组合物12、15、18、21和24重量%的不饱和聚酯树脂适当结合。为了生产砂纸样品，在15MPa的压力下压实骨料，并对样品进行固化，并研究其形态、机械和磨损性能。破碎指数、硬度和抗压强度分别为66.36%至95.76%、6.52至11.3HRB和4.41至7.24MPa。耐磨性在50℃时为0.94至1.54 mg/m，在150℃时为1.02至2.09 mg/m。由PKS和CNS制成的聚集体的性能对砂纸复合材料的性能参数有很大影响。

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