开发基于硅酸铝来源的下一代土工材料:综述

Mouaissa Mohamed Salah, Marouf Hafida, Ali-Dahmane Tewfik, Benosman Ahmed Sofiane, Aissa Mamoune Sidi Mohammed
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引用次数: 0

摘要

土工聚合物具有复合性质,可应用于建筑和土木工程的各个领域,因此可被视为土工材料。土工聚合物是由粉煤灰、稻壳灰、偏高岭土或粘土等天然原料通过与碱性溶液反应合成的无机材料。它们具有机械强度等有趣的特性,而且由于能够减少碳足迹并促进建筑结构的可持续发展,因此作为生态友好型粘结剂非常突出。本文旨在回顾基于硅酸铝来源的土工聚合物浆料和砂浆的生产现状及其特性,尤其关注含有疏浚沉积物的土工聚合物。除了确定影响含有沉积物的土工聚合物性能的关键因素外,审查还包括对使用硅酸铝源设计土工聚合物混合物的简要评估。此外,还介绍了与土工聚合物的机械和耐久性能有关的最新数据,并探讨了对环境的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Developement of a Next-Generation Geomaterial Based on Aluminosilicate Sources: A Review
Geopolymers can be considered as geomaterials due to their composite nature and applications in various areas of construction and civil engineering. Geopolymers are inorganic materials that can synthesized from natural raw materials, such as fly ash, rice husk ash, metakaolin, or clays, through reaction with alkaline solutions. They exhibit interesting properties such as mechanical strength, and they stand out as eco-friendly binders due to their ability to reduce carbon footprint and promote the sustainability of construction structures. This article aimed to review the current state of the art in the production of geopolymer pastes and mortars based on aluminosilicate sources and their properties, with a particular focus on geopolymers incorporating dredged sediment. The review includes a brief assessment of the use of aluminosilicate sources in designing geopolymer mixes, in addition to identifying key factor influencing the performance of geopolymers containing sediments. The latest data related to the mechanical and durability properties of geopolymers are presented, while also addressing the environmental impacts.
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