Flax fiber-reinforced materials for building and structural applications

用于建筑和结构应用的亚麻纤维增强材料

• 批准号: 476400-2014
• 负责人: TagnitHamou, Arezki
• 金额: $ 4.54万
• 依托单位: Université de Sherbrooke
• 依托单位国家: 加拿大
• 项目类别: Collaborative Research and Development Grants
• 财政年份: 2016
• 资助国家: 加拿大
• 起止时间: 2016-01-01 至 2017-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=599498
• 关键词: Flax; fiber; reinforced; materials; building

Natural fibers are an abundant, low-cost, and generally underutilized resource. Often, they are produced as waste by-products of industrial or agricultural processes. In Canada, for example, flax is grown primarily for its oilseed, and the straw is discarded or burned as a waste material. However, the fiber within the straw is one of the most durable and strong natural fibers, making it an ideal candidate for an effective fiber reinforcement in composite materials. Canada is the largest producer and exporter of flax in the world with close to 600 000 tons of flax produced in 2013/2014, making oilseed flax a readily available source of fibers. Protec-Style is presently producing flax fibers (FF) from the processing of oilseed or fiber flax plant. They are hydrophilic and their surface can be easily modified to improve compatibility and dispersion within matrices, making them efficient in reinforcing brittle polymer and in stabilizing cracks when insert in a concrete matrix. Currently, there is a critical need for advanced building materials for the domestic infrastructure, not only for new high-performance construction, but also to repair and enhance the performance of existing structures. These materials are required to be increasingly more energy-efficient, environmentally friendly, sustainable, affordable, and resilient. Fiber-reinforced polymers (FRP) are more and more used in construction. FRP are inexpensive, lightweight, and resistant alternatives to typical construction materials (i.e. steel, concrete, wood) for building (i.e. siding, panel, and roofing) and structural applications (i.e. external reinforcement, sheets). On the other hand, concrete is often and traditionally reinforced with fibers made of steel or polymer to increase tensile strength and improve ductility. This research and development project will enable to improve profitability and the environmental performances of Protec-Style, to elaborate some innovating materials ready to be used by FRP manufacturer and concrete supplier (Béton provincial). In addition, the project will enable to develop a new type of filaments, that is renewable and use highly available resources in Canada for its manufacture.

天然纤维是一种丰富、低成本且通常未充分利用的资源。它们往往是作为工业或农业过程的废弃副产品而产生的。例如，在加拿大，种植亚麻主要是为了它的油籽，而秸秆被丢弃或作为废料焚烧。然而，秸秆中的纤维是最耐用和最坚固的天然纤维之一，使其成为复合材料中有效纤维增强的理想候选者。加拿大是世界上最大的亚麻生产国和出口国，2013/2014年生产了近60万吨亚麻，使油籽亚麻成为一种现成的纤维来源。保护风格是目前生产亚麻纤维（FF）的加工油料种子或纤维亚麻植物。它们是亲水性的，并且它们的表面可以容易地改性以改善基质内的相容性和分散性，使得它们在插入混凝土基质中时有效地增强脆性聚合物和稳定裂缝。目前，国内基础设施迫切需要先进的建筑材料，不仅用于新的高性能建筑，而且用于维修和提高现有结构的性能。这些材料需要越来越节能，环保，可持续，负担得起和有弹性。纤维增强聚合物（FRP）越来越多地用于建筑。FRP是典型建筑材料（即钢、混凝土、木材）的廉价、轻质和耐用替代品，用于建筑（即壁板、面板和屋顶）和结构应用（即外部钢筋、板材）。另一方面，混凝土通常和传统上用钢或聚合物制成的纤维增强，以增加拉伸强度并改善延展性。该研发项目将提高Protec-Style的盈利能力和环保性能，并精心制作一些可供FRP制造商和混凝土供应商（Béton省）使用的创新材料。此外，该项目还将开发一种新型的长丝，这种长丝是可再生的，并使用加拿大高度可用的资源进行制造。