天然纤维拉挤型材在各种轻质结构和建筑方案中的应用

Evgenia Spyridonos, Hanaa Dahy
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引用次数: 0

摘要

重新评估塑造我们建筑环境的材料对于可持续建筑具有重要意义。这项研究介绍了新开发的天然纤维拉挤型材,由亚麻纤维和生物树脂组成,可根据特定性能和目标应用进行定制。这些型材可承受弯曲和压缩载荷,并经过严格的机械测试,以证明其抗压和抗弯强度以及柔韧性。重点在于自下而上的设计方法,指导在各种轻质结构中创造适合这种创新材料的应用。论文介绍了一系列案例研究,展示了生物复合材料型材在不同设计和结构环境中的应用。最初的重点是主动弯曲结构,突出这种材料的灵活性,并在第一个大型示范项目--一个十米跨度的结构中进行了展示。不过,鉴于该材料的多功能特性,它还适用于其他广泛的应用领域。讨论的主要案例研究包括往复式结构、张力结构和可部署结构,以及模块化平面或空间框架系统。这些型材为传统材料和复合材料提供了一种可持续发展的多功能替代品,提供了创新和生态友好型建筑解决方案,同时有助于实现行业的可持续发展目标。
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Application of natural fibre pultruded profiles in diverse lightweight structures and architectural scenarios

Reevaluating the materials that shape our built environment holds significant importance for sustainable construction. This research introduces newly developed natural fibre pultruded profiles, composed of flax fibres and bio-resin, customised for specific properties and targeted applications. Engineered to withstand both bending and compression loads, these profiles have been subjected to rigorous mechanical testing to demonstrate their compression and flexural strength, as well as flexibility. The emphasis lies on the bottom-up design approach, guiding the creation of applications suitable for this innovative material in various lightweight structures. The paper presents a series of case studies showcasing the use of biocomposite profiles in diverse design and structural contexts. The initial focus was on active-bending structures, highlighting the material’s flexibility, showcased at a ten-metre span structure, the first large-scale demonstrator. However, given the material’s versatile properties, it is suitable for a wide range of other applications. Key case studies discussed include reciprocal, tensegrity and deployable structures, as well as modular planar or space frame systems. These profiles offer a sustainable and versatile alternative to traditional materials and composites, providing innovative and eco-friendly construction solutions while contributing to industry sustainability goals.

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