基于粉煤灰的金属基地质聚合物薄涂层及其热评价。

Fly ash based geopolymer thin coatings on metal substrates and its thermal evaluation.

机构信息

Centre for Materials Research, Department of Imaging and Applied Physics, Curtin University of Technology, PerthWA 6845 Australia.

出版信息

J Hazard Mater. 2010 Aug 15;180(1-3):748-52. doi: 10.1016/j.jhazmat.2010.04.121. Epub 2010 May 7.

DOI:10.1016/j.jhazmat.2010.04.121

PMID:20488615

Abstract

Class F fly ash based Na-geopolymer formulations have been applied as fire resistant coatings on steel. The main variables for the coating formulations were Si: Al molar and water: cement weight ratios. We have determined that the adhesive strength of the coatings strongly depend on geopolymer composition. The ease with which geopolymer can be applied onto metal surfaces and the resultant thickness depend on the water content of the formulation. Adhesive strengths of greater than 3.5 MPa have been achieved on mild steel surfaces for compositions with Si:Al of 3.5. Microstructure evolution and thermal properties of the optimised coating formulations show that they have very promising fire resistant characteristics.

摘要

F 类粉煤灰基纳-地质聚合物配方已被应用于钢结构的防火涂料。涂层配方的主要变量是硅：铝摩尔比和水：水泥重量比。我们已经确定，涂层的粘结强度强烈依赖于地质聚合物的组成。地质聚合物在金属表面上的涂覆性以及所得的厚度取决于配方的含水量。对于 Si:Al 为 3.5 的组成，在低碳钢表面上已经实现了大于 3.5 MPa 的粘结强度。优化后的涂层配方的微观结构演变和热性能表明，它们具有非常有前途的防火特性。

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基于粉煤灰的金属基地质聚合物薄涂层及其热评价。

Fly ash based geopolymer thin coatings on metal substrates and its thermal evaluation.

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