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海上风电超低水胶比水泥基灌浆料的水化过程研究
Research on hydration process of cement based grouting material for offshore wind power with ultra low water to binder ratio
2024年第1期
超低水胶比;水泥基灌浆料;水化过程;微观结构
Ultra low water to binder ratio; Cement based grouting material; Hydration process; Microstructure
2024年第1期
10.19761/j.1000-4637.2024.01.044.03
广东省科技专项资金和阳江市科技专项资金项目(SDZX2021025)。
王小萍1,朱嵘华1,2,*,田振亚1,2
1.阳江海上风电实验室,广东 阳江529500;2.浙江大学 海洋学院,浙江 舟山 316021

王小萍1,朱嵘华1,2,*,田振亚1,2

王小萍,朱嵘华,田振亚.海上风电超低水胶比水泥基灌浆料的水化过程研究[J].混凝土与水泥制品,2024(1):44-46.

WANG X P,ZHU R H,TIAN Z Y.Research on hydration process of cement based grouting material for offshore wind power with ultra low water to binder ratio[J].China Concrete and Cement Products,2024(1):44-46.

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摘   要:基于水泥-硅灰-矿粉三元胶凝体系,制备了海上风电超低水胶比水泥基灌浆料,通过XRD和SEM分析了灌浆料不同龄期的水化产物与微观结构,并研究了其水化过程。结果表明:硅灰和矿粉共同促进了水泥的水化反应,且随着龄期的增加,促进作用增强;90 d时,在硅灰和矿粉的协同效应下,Ca(OH)2晶体大幅度减少,从而减少了Ca(OH)2自身晶体取向性对灌浆料造成的缺陷;水化反应生成大量低钙型C-S-H凝胶,形成排列紧密的层状构造,灌浆料内部结构致密,使其具有较高的抗压强度和耐久性能。 Abstract: Based on the cement-silica fume-mineral powder ternary cementitious system, ultra low water to binder ratio cementitious grouting material for offshore wind power was prepared. The hydration products and microstructure of the grouting material at different ages were analyzed by XRD and SEM, and the hydration process was studied. The results show that silica fume and mineral powder jointly promote the hydration reaction of cement, and the promoting effect increases with the increase of age. At 90 d, under the synergistic effect of silica fume and mineral powder, the Ca(OH)2 crystals significantly decrease, thereby reducing the defects caused by the crystal orientation of Ca(OH)2 on the grouting material. The hydration reaction generates a large number of low calcium C-S-H gel, forming a closely arranged layered structure. The internal structure of the grouting material is compact, which makes it have high compressive strength and durability.
英文名 : Research on hydration process of cement based grouting material for offshore wind power with ultra low water to binder ratio
刊期 : 2024年第1期
关键词 : 超低水胶比;水泥基灌浆料;水化过程;微观结构
Key words : Ultra low water to binder ratio; Cement based grouting material; Hydration process; Microstructure
刊期 : 2024年第1期
DOI : 10.19761/j.1000-4637.2024.01.044.03
文章编号 :
基金项目 : 广东省科技专项资金和阳江市科技专项资金项目(SDZX2021025)。
作者 : 王小萍1,朱嵘华1,2,*,田振亚1,2
单位 : 1.阳江海上风电实验室,广东 阳江529500;2.浙江大学 海洋学院,浙江 舟山 316021

王小萍1,朱嵘华1,2,*,田振亚1,2

王小萍,朱嵘华,田振亚.海上风电超低水胶比水泥基灌浆料的水化过程研究[J].混凝土与水泥制品,2024(1):44-46.

WANG X P,ZHU R H,TIAN Z Y.Research on hydration process of cement based grouting material for offshore wind power with ultra low water to binder ratio[J].China Concrete and Cement Products,2024(1):44-46.

摘要
参数
结论
参考文献
引用本文

摘   要:基于水泥-硅灰-矿粉三元胶凝体系,制备了海上风电超低水胶比水泥基灌浆料,通过XRD和SEM分析了灌浆料不同龄期的水化产物与微观结构,并研究了其水化过程。结果表明:硅灰和矿粉共同促进了水泥的水化反应,且随着龄期的增加,促进作用增强;90 d时,在硅灰和矿粉的协同效应下,Ca(OH)2晶体大幅度减少,从而减少了Ca(OH)2自身晶体取向性对灌浆料造成的缺陷;水化反应生成大量低钙型C-S-H凝胶,形成排列紧密的层状构造,灌浆料内部结构致密,使其具有较高的抗压强度和耐久性能。

Abstract: Based on the cement-silica fume-mineral powder ternary cementitious system, ultra low water to binder ratio cementitious grouting material for offshore wind power was prepared. The hydration products and microstructure of the grouting material at different ages were analyzed by XRD and SEM, and the hydration process was studied. The results show that silica fume and mineral powder jointly promote the hydration reaction of cement, and the promoting effect increases with the increase of age. At 90 d, under the synergistic effect of silica fume and mineral powder, the Ca(OH)2 crystals significantly decrease, thereby reducing the defects caused by the crystal orientation of Ca(OH)2 on the grouting material. The hydration reaction generates a large number of low calcium C-S-H gel, forming a closely arranged layered structure. The internal structure of the grouting material is compact, which makes it have high compressive strength and durability.

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在超低水胶比条件下,水泥-硅灰-矿粉三元胶凝体系灌浆料中,硅灰和矿粉共同促进了水泥的水化,且随着龄期的增加,促进作用增强;随着龄期的增加,Ca(OH)2晶体数量减少,且晶体尺寸较小,C-S-H凝胶生成量增加,结晶程度得到改善,结构也得到优化,有利于灌浆料达到较高的抗压强度和较好的耐久性能。

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王小萍,朱嵘华,田振亚.海上风电超低水胶比水泥基灌浆料的水化过程研究[J].混凝土与水泥制品,2024(1):44-46.

WANG X P,ZHU R H,TIAN Z Y.Research on hydration process of cement based grouting material for offshore wind power with ultra low water to binder ratio[J].China Concrete and Cement Products,2024(1):44-46.

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