Structural bamboo composites: A review of processing, factors affecting properties and recent advances

B.U. Kelkar, S.R. Shukla , P. Nagraik, B.N. Paul
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引用次数: 3

Abstract

Bamboo is a widely available bio-resource that is considered as a sustainable and eco-friendly raw material for fabricating composites that could replace timber and timber-based products. Several structural bamboo composites (SBCs) have been developed as a sustainable alternative to traditional load-bearing materials in different applications. These composites utilise bamboo in its converted forms viz., strips or strands, bonded with structural grade polymeric adhesives, and compacted and cured under pressure and at high temperature, forming thick panels or beams with standardized cross-sections. With recent advances in processing technologies, several interventions have been undertaken to improve the production efficiency and overall properties and performance of SBCs. While the properties of these composites are comparable or even better than those of commonly used wood and wood-based mass timber products, their performance is strongly influenced by the different processing parameters used in their fabrication. This article presents a comprehensive overview of the recent literature about the production process of SBCs and their physico-mechanical and other properties, factors affecting these quality parameters and current developments in processing technologies. It also examines potential applications and the future scope of research work in this area.

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结构竹复合材料:加工、影响性能的因素及最新进展综述
竹子是一种广泛可用的生物资源,被认为是制造复合材料的可持续和环保原材料,可以取代木材和木材制品。几种结构竹复合材料(SBCs)已被开发出来,作为传统承重材料在不同应用中的可持续替代品。这些复合材料利用竹子的转换形式,即条带或股带,用结构级聚合物粘合剂粘合,并在压力和高温下压实和固化,形成具有标准横截面的厚面板或梁。随着加工技术的最新进展,已经采取了一些干预措施来提高SBC的生产效率和整体性能。虽然这些复合材料的性能与常用木材和木质大宗木材产品的性能相当,甚至更好,但它们的性能受到制造过程中使用的不同工艺参数的强烈影响。本文全面综述了近年来关于SBCs生产工艺及其物理力学和其他性能、影响这些质量参数的因素以及加工技术的最新发展的文献。它还审查了这一领域的潜在应用和未来研究工作范围。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Physico-mechanical properties and decay fungi resistance of Dendrocalamus asper and Bambusa spinosa thermally modified in spent engine oil medium Natural geometrical variations of Italian Phyllostachys edulis bamboo culms for construction purposes Current and future habitat suitability modelling of Bambusa teres outside forest areas in Nepal under climate change scenarios Moisture ageing effects on the mechanical performance of eco-friendly sandwich panels made of aluminium skins, bamboo ring core and bio-based adhesives A novel dataset for green bamboo compressive strength analysis
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