Mechanical impact evaluation of natural fibres with LDPE plastic composites: Waste management in perspective

R.U. Arinze , E. Oramah , E.C. Chukwuma , N.H. Okoye , P.U. Chris-Okafor
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引用次数: 2

Abstract

There is increased enthusiasm towards the use of natural hair fibers for plastic reinforcement due to their toughness and light weight. In this research, low density polyethylene (LDPE) was reinforced using 0.25 ​M NaOH treated cow tail, human and sheep hair fibers at 2, 4, 6 and 8% concentration respectively prior to injection moulding. The average densities, diameters and lengths of hair fibres were assessed The results obtained from the analysis of reinforced LDPE composites indicated that cow tail hair gave the highest average density and diameter. Sheep hair had the highest length after grinding. The study also analyzed the ultimate tensile strength and modulus, flexural strength and modulus, elongation, impact and hardness test on the polymer and their composites as well as the morphology and statistical analysis of the composite. This study indicated that human hair LDPE composites achieved highest flexural strength, flexural modulus, ultimate tensile strength and tensile modulus at 8% fibre loading whereas elongation at break and hardness were at 4% fibre loading while impact strength was at 2%. The cow tail hair LDPE composite gave the best impact strength at 8% fibre loading and sheep hair at 6%. The SEM results showed no serious manufacturing defects on the composites. The analysis of variance indicated that only the means of the composites’ flexural properties were statistically significant. This study shows that short animal hair fibres could be effectively used to reinforced LDPE, and therefore suggest an alternative waste management strategy of these natural fibres that are currently viewed as environmental nuisance in the study area.

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天然纤维与LDPE塑料复合材料的机械冲击评价:废物管理的观点
由于其韧性和重量轻,人们对使用天然头发纤维作为塑料增强材料的热情越来越高。在本研究中,低密度聚乙烯(LDPE)在注射成型前分别用浓度为2,4,6和8%的0.25 M NaOH处理过的牛尾、人毛和羊毛纤维进行增强。对增强LDPE复合材料的平均密度、平均直径和平均长度进行了测定,结果表明,牛尾毛的平均密度和平均直径最高。磨毛后羊毛长度最高。研究还对聚合物及其复合材料进行了极限拉伸强度和模量、弯曲强度和模量、伸长率、冲击和硬度测试,并对复合材料进行了形貌和统计分析。研究表明,人毛LDPE复合材料在8%纤维负荷下具有最高的抗弯强度、抗弯模量、极限抗拉强度和抗拉模量,在4%纤维负荷和2%冲击强度下具有最高的断裂伸长率和硬度。牛尾毛LDPE复合材料在8%的纤维负荷和6%的羊毛负荷下具有最佳的冲击强度。SEM结果显示复合材料没有严重的制造缺陷。方差分析表明,只有复合材料抗弯性能的平均值具有统计学意义。这项研究表明,短动物毛纤维可以有效地用于增强LDPE,因此提出了这些天然纤维的替代废物管理策略,这些天然纤维目前在研究地区被视为环境危害。
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来源期刊
Current Research in Green and Sustainable Chemistry
Current Research in Green and Sustainable Chemistry Materials Science-Materials Chemistry
CiteScore
11.20
自引率
0.00%
发文量
116
审稿时长
78 days
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