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水泥浆废水对MgO激发矿渣胶凝材料水化特性的影响
Effect of cement slurry wastewater on hydration characteristics of MgO activated slag cementitious materials
2024年第1期
水泥浆废水;MgO激发剂;矿渣;水化特性;抗压强度;孔结构
Cement slurry wastewater; MgO activator; Slag; Hydration characteristic; Compressive strength; Pore structure
2024年第1期
10.19761/j.1000-4637.2024.01.100.04
安徽省科技重大专项项目(202003a07020023)。
陶良敬,荆 喆,谭园园
安徽建工建材科技集团有限公司,安徽 合肥 230000

陶良敬,荆 喆,谭园园

陶良敬,荆喆,谭园园.水泥浆废水对MgO激发矿渣胶凝材料水化特性的影响[J].混凝土与水泥制品,2024(1):100-103.

TAO L J,JING Z,TAN Y Y.Effect of cement slurry wastewater on hydration characteristics of MgO activated slag cementitious materials[J].China Concrete and Cement Products,2024(1):100-103.

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摘   要:研究了水泥浆废水(以下简称CWw)等质量替代0、20.0%、25.0%、33.3%、50.0%的水对MgO激发矿渣胶凝材料(以下简称WAAS)水化特性的影响,并测试了其抗压强度和孔结构。结果表明:掺入CWw有效促进了WAAS的水化进程,且CWw掺量越大,WAAS的主要水化放热峰越显著,热失重量越大,水化产物生成量越多;随着CWw掺量的增加,WAAS的抗压强度先增大后减小,最佳掺量为33.3%;WAAS的累计孔隙率随着CWw掺量的增加而减小,微观结构更密实。 Abstract: The effects of replacing 0, 20.0%, 25.0%, 33.3% and 50.0% of water with cement slurry wastewater (CWw) on the hydration characteristics of MgO activated slag cementitious materials(WAAS) were studied, and the compressive strength and pore structure were tested. The results show that the addition of CWw effectively promotes the hydration process of WAAS, and the larger the CWw content, the more significant the main hydration heat release peak of WAAS, the greater the heat loss weight, and the more hydration products are generated. With the increase of CWw content, the compressive strength of WAAS first increases and then decreases, and the optimal content is 33.3%. The cumulative porosity of WAAS decreases with the increase of CWw content, resulting in a denser microstructure.
英文名 : Effect of cement slurry wastewater on hydration characteristics of MgO activated slag cementitious materials
刊期 : 2024年第1期
关键词 : 水泥浆废水;MgO激发剂;矿渣;水化特性;抗压强度;孔结构
Key words : Cement slurry wastewater; MgO activator; Slag; Hydration characteristic; Compressive strength; Pore structure
刊期 : 2024年第1期
DOI : 10.19761/j.1000-4637.2024.01.100.04
文章编号 :
基金项目 : 安徽省科技重大专项项目(202003a07020023)。
作者 : 陶良敬,荆 喆,谭园园
单位 : 安徽建工建材科技集团有限公司,安徽 合肥 230000

陶良敬,荆 喆,谭园园

陶良敬,荆喆,谭园园.水泥浆废水对MgO激发矿渣胶凝材料水化特性的影响[J].混凝土与水泥制品,2024(1):100-103.

TAO L J,JING Z,TAN Y Y.Effect of cement slurry wastewater on hydration characteristics of MgO activated slag cementitious materials[J].China Concrete and Cement Products,2024(1):100-103.

摘要
参数
结论
参考文献
引用本文

摘   要:研究了水泥浆废水(以下简称CWw)等质量替代0、20.0%、25.0%、33.3%、50.0%的水对MgO激发矿渣胶凝材料(以下简称WAAS)水化特性的影响,并测试了其抗压强度和孔结构。结果表明:掺入CWw有效促进了WAAS的水化进程,且CWw掺量越大,WAAS的主要水化放热峰越显著,热失重量越大,水化产物生成量越多;随着CWw掺量的增加,WAAS的抗压强度先增大后减小,最佳掺量为33.3%;WAAS的累计孔隙率随着CWw掺量的增加而减小,微观结构更密实。

Abstract: The effects of replacing 0, 20.0%, 25.0%, 33.3% and 50.0% of water with cement slurry wastewater (CWw) on the hydration characteristics of MgO activated slag cementitious materials(WAAS) were studied, and the compressive strength and pore structure were tested. The results show that the addition of CWw effectively promotes the hydration process of WAAS, and the larger the CWw content, the more significant the main hydration heat release peak of WAAS, the greater the heat loss weight, and the more hydration products are generated. With the increase of CWw content, the compressive strength of WAAS first increases and then decreases, and the optimal content is 33.3%. The cumulative porosity of WAAS decreases with the increase of CWw content, resulting in a denser microstructure.

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(1)掺入CWw显著促进了WAAS的水化进程,且CWw的掺量越大,对水化的促进作用越明显,主要峰的峰值越高。
(2)掺入CWw对WAAS的水化产物类型无影响,但能有效提高Mg(OH)2、C-(A)-S-H等水化产物的生成量。
(3)随着CWw掺量的增加,WAAS的各龄期抗压强度基本均呈先增大后减小的趋势,且WAAS的最佳掺量为33.3%。
(4)CWw对WAAS的孔结构有影响,随着CWw掺量的增加,WAAS中孔径在100 nm以下的孔峰宽度逐渐减小,累计孔隙率也减小,说明基体的微观结构更密实。

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陶良敬,荆喆,谭园园.水泥浆废水对MgO激发矿渣胶凝材料水化特性的影响[J].混凝土与水泥制品,2024(1):100-103.

TAO L J,JING Z,TAN Y Y.Effect of cement slurry wastewater on hydration characteristics of MgO activated slag cementitious materials[J].China Concrete and Cement Products,2024(1):100-103.

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