Early-Age Heat Evolution and Pore Structure of Portland Cement Blended with Blast Furnace Slag, Fly Ash or Limestone Powder

Jian Zhou; Guang Ye; Klaas van Breugel

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Early-Age Heat Evolution and Pore Structure of Portland Cement Blended with Blast Furnace Slag, Fly Ash or Limestone Powder

机译：高炉矿渣，粉煤灰或石灰石粉掺合的硅酸盐水泥的早期热演化和孔结构

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Recently, blast furnace slag, fly ash and limestone powder are increasingly used as blending materials in producing concrete. The use of these materials not only has economical and environmental advantages, but also improves the mechanical properties, durability and workability of concrete. In this paper, the results of experimental investigations on the evolution of hydration heat and the development of microstructure of Portland cement blended with blast furnace slag, fly ash or limestone powder are presented. These results show that three blending materials accelerate the hydration of Portland cement, but result in less heat release during the first 72 hours. The Portland cement with blast furnace slag has a denser pore structure than the others.

机译：最近，高炉矿渣，粉煤灰和石灰石粉在生产混凝土中越来越多地用作混合材料。这些材料的使用不仅具有经济和环境优势，而且还改善了混凝土的机械性能，耐久性和可加工性。本文介绍了高炉矿渣，粉煤灰或石灰石粉掺合的硅酸盐水泥水化热演化及微观结构发展的实验研究结果。这些结果表明，三种混合材料可促进波特兰水泥的水化，但在最初的72小时内释放的热量较少。带有高炉矿渣的波特兰水泥比其他水泥具有更致密的孔结构。

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来源
《Key Engineering Materials》 |2009年第2009期|242-246|共5页
作者
Jian Zhou; Guang Ye; Klaas van Breugel;
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作者单位

Microlab, Faculty of Civil Engineering and Geosciences, Delft University of Technology, Delft, the Netherlands;

Microlab, Faculty of Civil Engineering and Geosciences, Delft University of Technology, Delft, the Netherlands rnMagnel Laboratory for Concrete Research, Department of Structural Engineering, Ghent University, Ghent, Belgium;

Microlab, Faculty of Civil Engineering and Geosciences, Delft University of Technology, Delft, the Netherlands;

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正文语种 eng
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关键词
hydration heat; pore structure; blast furnace slag; fly ash; limestone powder;

机译：水化热孔结构高炉渣粉煤灰石灰石粉;

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专利

1. Hydration of quaternary Portland cement blends containing blast-furnace slag, siliceous fly ash and limestone powder [J] . Schoeler Axel, Lothenbach Barbara, Winnefeld Frank, Cement & concrete composites . 2015,第Null期

机译：含高炉矿渣，硅质粉煤灰和石灰石粉的第四级硅酸盐水泥掺合物的水合
2. COMPORTAMIENTO MECANICO DE SISTEMAS CEMENTANTES TERNARIOS (CEMENTO PORTLAND - CENIZA VOLANTE - ESCORIA DE ALTO HORNO) ( MECHANICAL PERFORMANCE OF BLENDED TERNARY CEMENTITIOUS SYSTEMS (PORTLAND CEMENT–FLY ASH–BLAST FURNACE SLAG) ) [J] . Jhon Wilmar Cárdenas Pulido, Juan Lizarazo Marriaga, Willian Aperador Chaparro Revista Latinoamericana de Metalurgia y Materiales . 2016,第2期

机译：三元胶结体系的机械性能（波特兰水泥-粉煤灰-高炉炉渣）（三元胶结混合体系的机械性能（波特兰水泥-粉煤灰-高炉炉渣））
3. Service life of metakaolin-based concrete exposed to carbonation Comparison with blended cement containing fly ash, blast furnace slag and limestone filler [J] . Bucher Raphael, Diederich Paco, Escadeillas Gilles, Cement and Concrete Research . 2017,第期

机译：基于Metakaolin的混凝土使用含有粉煤灰，高炉炉渣和石灰石填料的碳酸铝蛋白的混凝土使用寿命。
4. Early-Age Heat Evolution and Pore Structure of Portland Cement Blended with Blast Furnace Slag, Fly Ash or Limestone Powder [C] . Jian Zhou, Guang Ye, Klaas van Breuge International Symposium on Ultra-High-Pumpability and High Performance Concrete Technology . 2009

机译：波特兰水泥的早期热演化和孔隙结构与高炉炉渣，粉煤灰或石灰石粉末混合
5. Activation of natural pozzolans, fly ashes and blast furnace slag. [D] . Shi, Caijun. 1993

机译：活化天然火山灰，飞灰和高炉矿渣。
6. Comparative Study on Chloride Binding Capacity of Cement-Fly Ash System and Cement-Ground Granulated Blast Furnace Slag System with Diethanol-Isopropanolamine [O] . Huaqing Liu, Yan Zhang, Jialong Liu, 2020

机译：水泥 - 粉煤灰系统氯化物结合能力与二乙醇 - 异丙醇胺和水泥地粒状高炉矿渣系统的比较研究
7. PERFORMANCE OF MULTI BLEND CEMENT CONTAINING FLY ASH, GRANULATED BLAST FURNACE SLAG AND LIMESTONE [O] . S K Chaturvedi 2017

机译：多混合物含有粉煤灰，粒状高炉炉渣和石灰石的性能
8. Quantitative measurements of fly ash, slag, and cement in limestone-based blends by Fourier transform infrared-attenuated total reflectance method. [R] . Rebagay, T. V., Dodd, D. A., Claghorn, R. D., 1991

机译：用傅立叶变换红外衰减全反射法定量测量石灰石基混合物中的粉煤灰，矿渣和水泥。

Early-Age Heat Evolution and Pore Structure of Portland Cement Blended with Blast Furnace Slag, Fly Ash or Limestone Powder

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