Study of physicochemical, flammability, and acoustic properties of Hookeri raphia natural from Cameroon

Jean de Dieu Briand Minsongui Mveh, R. Ligabue, Sandra Mara Oliveira Einloft, Jeane Estela Ayres de Lima
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Abstract

The development of new materials is ultimately associated with requirements such as strength, lightness, low production cost, and raw materials from renewable sources, seeking to meet the needs, research, and development of new technologies, which value the qualification of materials from vegetable sources as natural fibers. In this context, this study aimed to characterize the main physicochemical properties of the natural raffia fiber and its flammability and thermo-acoustic characteristics. These characterizations were performed using several techniques, such as chemical composition analysis, density, moisture adsorption, SEM-EDS, FTIR, and TGA/DTG. The results showed that the morphology of the raffia fiber presents a similar shape to the beehive. The Elemental analysis of the natural fiber of raffia shows that carbon and oxygen contents are predominant, representing a proportion of more than 90%. Furthermore, the results suggest that the fiber is composed of lignin, hemicellulose, cellulose, tannin, and extractives, with cellulose in a proportion of 80%. TGA presents a profile similar to large parts of untreated vegetable fibers. The acoustic test showed excellent sound absorption coefficient (α) values at high frequencies, while the flammability test showed that natural raffia fiber is a good flame retardant.
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喀麦隆天然虎克兰的理化、可燃性和声学特性研究
新材料的开发最终与强度、重量、低生产成本和可再生原料等要求有关,寻求满足新技术的需求、研究和开发,这些新技术重视植物源材料作为天然纤维的资格。在此背景下,本研究旨在表征天然烟叶纤维的主要物理化学性质及其可燃性和热声特性。这些表征使用了多种技术,如化学成分分析、密度、水分吸附、SEM-EDS、FTIR和TGA/DTG。结果表明,烟叶纤维的形态与蜂巢的形态相似。对天然烟叶纤维的元素分析表明,其碳和氧含量占主导地位,占90%以上。结果表明,该纤维由木质素、半纤维素、纤维素、单宁和提取物组成,其中纤维素的比例为80%。TGA呈现出与大部分未经处理的植物纤维相似的特征。声学测试结果表明,天然烟叶纤维的高频吸声系数(α)值优异,可燃性测试结果表明,天然烟叶纤维具有良好的阻燃性能。
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