香蕉纤维和聚乳酸模压复合隔墙板的研制

IF 0.8 Q4 ENGINEERING, CIVIL Electronic Journal of Structural Engineering Pub Date : 2023-03-30 DOI:10.56748/ejse.233832
D. Weerasinghe, Dilshan Hedigalla, Dumindu Dassanayaka, N. Wanasekara, Ujithe Gunasekera, D. Mohotti
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引用次数: 0

摘要

由于越来越多的环境考虑和立法,利用可再生资源开发的绿色建筑材料已成为同时研究的焦点。然而,大多数现有文献只关注承重结构元件。因此,很少关注诸如分隔材料之类的非承重结构元件。目前的工作旨在通过研究将可生物降解的生物塑料PLA与使用香蕉纤维纺成的纱线相结合来制造用于建筑行业的临时分隔材料的复合面板的可行性来解决这一差距。预拉伸香蕉丝作为增强材料,PLA作为基体。复合材料面板是使用压模技术制造的。研究了成型温度、成型压力、预张力和补强纱用量等工艺参数对板材性能的影响。最佳成型条件为180℃的成型温度和15吨的成型压力。纱线预张力对复合材料板的性能有积极影响。然而,增强纱线百分比的增加导致复合材料的弯曲性能下降。最后,将其性能与目前使用最广泛的分隔材料中密度纤维板(MDF)进行了比较。与MDF相比,在最佳条件下制造的新型复合板表现出52%的高冲击强度和55%的高弯曲强度。本文提出的复合面板有潜力取代MDF,成为使用可再生资源制造的性能更好的材料。
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Developing a Compression-moulded Composite Partitioning Panel from Banana Fibres and PLA
Green construction materials developed using renewable resources have become the focus of concurrent research owing to increasing environmental considerations and legislations. However, most of the available literature focus only on load-bearing construction elements. Consequently, little attention has been paid towards non-load-bearing construction elements such as partitioning materials. The present work aims to address this gap by investigating the viability of using the biodegradable bioplastic PLA in combination with yarns spun using banana fibres to manufacture a composite panel intended for temporary partitioning materials used in the construction industry. Pre-tensioned banana yarns were used as the reinforcement while PLA was used as the matrix. The composite panels were manufactured using the compression moulding technique. The effect of process parameters such as moulding temperature and pressure, the effects of the degree of pre-tension and the amount of reinforcing yarn on the performance of the panels were investigated. The optimum moulding conditions were found to be 180oC moulding temperature and 15 tonnes of moulding pressure. Yarn pre-tensioning exhibited a positive effect on the performance of the composite panels. However, increasing the reinforcing yarn percentage caused a degradation of flexural performance of the composite. Finally, the performance was compared against the most widely used partitioning material currently, medium-density fibreboard (MDF). The novel composite panel manufactured at optimum conditions exhibited 52% higher impact strength and 55% higher flexural strength when compared to MDF. The composite panel presented herein has the potential to replace MDF as a better performing material manufactured using renewable resources.
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来源期刊
Electronic Journal of Structural Engineering
Electronic Journal of Structural Engineering Engineering-Civil and Structural Engineering
CiteScore
1.10
自引率
16.70%
发文量
0
期刊介绍: The Electronic Journal of Structural Engineering (EJSE) is an international forum for the dissemination and discussion of leading edge research and practical applications in Structural Engineering. It comprises peer-reviewed technical papers, discussions and comments, and also news about conferences, workshops etc. in Structural Engineering. Original papers are invited from individuals involved in the field of structural engineering and construction. The areas of special interests include the following, but are not limited to: Analytical and design methods Bridges and High-rise Buildings Case studies and failure investigation Innovations in design and new technology New Construction Materials Performance of Structures Prefabrication Technology Repairs, Strengthening, and Maintenance Stability and Scaffolding Engineering Soil-structure interaction Standards and Codes of Practice Structural and solid mechanics Structural Safety and Reliability Testing Technologies Vibration, impact and structural dynamics Wind and earthquake engineering. EJSE is seeking original papers (research or state-of the art reviews) of the highest quality for consideration for publication. The papers will be published within 3 to 6 months. The papers are expected to make a significant contribution to the research and development activities of the academic and professional engineering community.
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