FRP material properties offer unique opportunities for architecture, but their mould-based standard forming processes stand in contrast to contemporary practices, aiming for variation and surface articulation. Fabric materiality FRP (FM-FRP) is an alternative approach to the design and fabrication of architectural FRP that enhances the textile qualities of the fibre material in the composite. Through integration of key textile attributes and a set methodology, two FM-FRP material systems are developed. Released from the necessity of moulds, design principles of biological composites can be integrated into synthetic FRP shaping processes and resilient properties show. A new materiality of FRP emerges, blurring boundaries between material and structure. Functionality is achieved by the intricate spatial distribution of voids and matter, resulting in highly porous volumetric FRP material. Taking-up on the approach and terminology of material-science, a new understanding of FM-FRP as architectured material is suggested. It opens a new path for its development towards enhanced functionalities, to enable future more sustainable application for the architectural field.

FRP 材料特性为建筑提供了独特的机会，但它们基于模具的标准成型工艺与当代实践形成鲜明对比，旨在实现变化和表面连接。织物材料 FRP (FM-FRP)是一种设计和制造建筑 FRP 的替代方法，可提高复合材料中纤维材料的纺织质量。通过整合关键纺织品属性和一套方法，两种FM-FRP开发材料系统。从模具的必要性中解放出来，生物复合材料的设计原则可以集成到合成 FRP 成型过程中，并显示出弹性性能。出现了一种新的 FRP 材料，模糊了材料和结构之间的界限。功能是通过空隙和物质的复杂空间分布来实现的，从而产生高度多孔的体积 FRP 材料。采用材料科学的方法和术语，建议对FM-FRP作为建筑材料进行新的理解。它开辟了一条通往增强功能的新道路，使未来在建筑领域的应用更加可持续。