简介概要

Effect of Silica Fume on the Thaumasite Form of Sulfate Attack on Cement-based Materials

来源期刊:Journal Of Wuhan University Of Technology Materials Science Edition2017年第5期

论文作者:王迎斌 贺行洋 SU Ying HUANG Jian MA Baoguo

文章页码:1108 - 1114

摘    要:Thaumasite form of sulfate attack(TSA) can be observed in cement containing limestone under sulfate condition at low temperature. Mixing with suitable mineral admixture could be a good choice to improve the TSA resistance performance of cement-based materials. We investigated the durability performance of limestone-cement mortars reinforced with silica fume(SF) in 5% MgSO4 solution at 5 ℃. The mortars, which were immersed in aggressive condition, were prepared with 2%, 4%, 6%, 8%, and 10% cement replacement by SF at a fixed water-to-binder ratio. Appearance, compressive strength, change of length and mass and corrosion products were investigated to evaluate the TSA resistance performance of SF based specimens. The results showed that specimens in the absence of SF almost disintegrated. Increasing SF dosage can reduce the degree of deterioration of SF mortars in TSA environment. Mortar mixtures with more than 6% SF merely show slight degeneration in relation to macroscopic and microscopic tests and characterizations.

详情信息展示

Effect of Silica Fume on the Thaumasite Form of Sulfate Attack on Cement-based Materials

王迎斌1,贺行洋1,SU Ying1,HUANG Jian2,MA Baoguo2

1. School of Civil Engineering, Architecture and Environment, Hubei University of Technology2. State Key Laboratory of Silicate Materials for Architectures, Wuhan University of Technology

摘 要:Thaumasite form of sulfate attack(TSA) can be observed in cement containing limestone under sulfate condition at low temperature. Mixing with suitable mineral admixture could be a good choice to improve the TSA resistance performance of cement-based materials. We investigated the durability performance of limestone-cement mortars reinforced with silica fume(SF) in 5% MgSO4 solution at 5 ℃. The mortars, which were immersed in aggressive condition, were prepared with 2%, 4%, 6%, 8%, and 10% cement replacement by SF at a fixed water-to-binder ratio. Appearance, compressive strength, change of length and mass and corrosion products were investigated to evaluate the TSA resistance performance of SF based specimens. The results showed that specimens in the absence of SF almost disintegrated. Increasing SF dosage can reduce the degree of deterioration of SF mortars in TSA environment. Mortar mixtures with more than 6% SF merely show slight degeneration in relation to macroscopic and microscopic tests and characterizations.

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