There is a burgeoning interest in the development of geopolymers as sustainable construction materials and incombustible inorganic polymers. However, geopolymers show high quasi-brittle behavior. To overcome such weakness, hundreds of research have been focused on development, characterization, and implementation of fiber reinforced geopolymers for a wide range of applications. This paper discusses the rapidly developing state-of-the-art of fiber reinforced geopolymer composites, focusing on material and geometrical properties of construction fibers, and underlying mechanisms on fiber-binder interaction at fresh and hardened states, mechanical properties, toughening mechanisms, thermal characteristics, and environmental durability. It is intended to build a strong conceptual and technical background for what is currently understood on fiber reinforced geopolymers by tying the subject together with knowns for other similar cementitious composites rather than a historical report of literature.

对作为可持续建筑材料和不燃性无机聚合物的地聚合物的开发产生了浓厚的兴趣。但是，地聚合物表现出很高的准脆性。为了克服这种弱点，数百项研究集中在纤维增强的地质聚合物的开发，表征和实施上，以用于广泛的应用。本文讨论了快速发展的纤维增强地质聚合物复合材料的最新技术，重点是建筑纤维的材料和几何性能，以及在新鲜和硬化状态下纤维与粘合剂相互作用的基本机理，机械性能，增韧机理，热学性能。特性和环境耐久性。