{"title":"Properties of Reinforced Polymer Composite Produced from Coconut Fiber","authors":"W. Cheewawuttipong, A. Memon","doi":"10.22382/WFS-2021-15","DOIUrl":null,"url":null,"abstract":"This study aimed at the production of reinforced polymer composites from coconut fibers and plastics. Coir Fiber (CF) sheets with dimensions of 200 x 200 x 12 mm ( + 3mm) were used as the natural fiber, whereas a thermosetting plastic or an elastomer (unsaturated polyester [UPE] or silicon rubber [SIR]) was used as the binder in the matrix. Processing was performed using the vacuum infiltration method, wherein the liquid polymer was made to infiltrate the cellulose of the natural structure of the CFs and disperse within the CF matrix. The effect of production variables on thermal, sound, and flexural properties was evaluated. Material characterization tests revealed that the addition of the UPE and SIR as reinforcing materials enhanced the thermal conductivity of the CFs. UPE improved the modulus of rupture of the CFs. The study further revealed that CF/SIR composites showed high ductility. Analysis of the sound absorption properties of the composites revealed that the noise reduction coefficient (NRC) of the CF/400 wt% SIR composite was the highest. Moreover, the CF/SIR composites showed higher sound absorption efficiency (α) values at high frequencies than those of the CF/UPE composites. However, the polymers had no effect on the NRC of the neat CFs when added in a low concentration (200 wt%). This study shows that coconut husk waste can be used to produce reinforced polymer composites with desirable thermal conductivity and sound absorption characteristics.","PeriodicalId":23620,"journal":{"name":"Wood and Fiber Science","volume":"53 1","pages":"147-156"},"PeriodicalIF":0.8000,"publicationDate":"2021-04-26","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Wood and Fiber Science","FirstCategoryId":"88","ListUrlMain":"https://doi.org/10.22382/WFS-2021-15","RegionNum":4,"RegionCategory":"工程技术","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"FORESTRY","Score":null,"Total":0}
引用次数: 2
Abstract
This study aimed at the production of reinforced polymer composites from coconut fibers and plastics. Coir Fiber (CF) sheets with dimensions of 200 x 200 x 12 mm ( + 3mm) were used as the natural fiber, whereas a thermosetting plastic or an elastomer (unsaturated polyester [UPE] or silicon rubber [SIR]) was used as the binder in the matrix. Processing was performed using the vacuum infiltration method, wherein the liquid polymer was made to infiltrate the cellulose of the natural structure of the CFs and disperse within the CF matrix. The effect of production variables on thermal, sound, and flexural properties was evaluated. Material characterization tests revealed that the addition of the UPE and SIR as reinforcing materials enhanced the thermal conductivity of the CFs. UPE improved the modulus of rupture of the CFs. The study further revealed that CF/SIR composites showed high ductility. Analysis of the sound absorption properties of the composites revealed that the noise reduction coefficient (NRC) of the CF/400 wt% SIR composite was the highest. Moreover, the CF/SIR composites showed higher sound absorption efficiency (α) values at high frequencies than those of the CF/UPE composites. However, the polymers had no effect on the NRC of the neat CFs when added in a low concentration (200 wt%). This study shows that coconut husk waste can be used to produce reinforced polymer composites with desirable thermal conductivity and sound absorption characteristics.
本研究旨在用椰子纤维和塑料生产增强聚合物复合材料。尺寸为200 x 200 x 12 mm(+3mm)的Coir纤维(CF)片材被用作天然纤维,而热固性塑料或弹性体(不饱和聚酯[UPE]或硅橡胶[SIR])被用作基质中的粘合剂。使用真空渗透法进行处理,其中使液体聚合物渗透CF的天然结构的纤维素并分散在CF基质内。评估了生产变量对热性能、声音性能和弯曲性能的影响。材料表征测试表明,UPE和SIR作为增强材料的加入提高了CF的热导率。UPE提高了CF的断裂模量。研究进一步表明,CF/SIR复合材料具有较高的延展性。对复合材料的吸声性能分析表明,CF/400wt%SIR复合材料的降噪系数(NRC)最高。此外,与CF/UPE复合材料相比,CF/SIR复合材料在高频下表现出更高的吸声效率(α)值。然而,当以低浓度(200wt%)添加时,聚合物对纯CF的NRC没有影响。该研究表明,椰子壳废料可用于生产具有理想导热性和吸声特性的增强聚合物复合材料。
期刊介绍:
W&FS SCIENTIFIC ARTICLES INCLUDE THESE TOPIC AREAS:
-Wood and Lignocellulosic Materials-
Biomaterials-
Timber Structures and Engineering-
Biology-
Nano-technology-
Natural Fiber Composites-
Timber Treatment and Harvesting-
Botany-
Mycology-
Adhesives and Bioresins-
Business Management and Marketing-
Operations Research.
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