Effect of High Temperature Process on Microstructure and Properties of Industrial Steel Slag Cement

Fang Wang; Min Han Xu; Rui Hua Wang; Chao Yang; Ai Xia Chen; Shi Bin Li; Jie Guang Song; Xue Qing Yang

doi:10.4028/www.scientific.net/KEM.814.413

Paper Titles

Effect of Shrinkage Reducing Admixture on Shrinkage and Crack Properties of Cement Based Materials
p.387

Water Resistance Modification of Magnesium Oxychloride Cement with H₃PO₄/Na₂O·xSiO₂·nH₂O
p.393

Correlation between Unconfined Compressive Strength and Penetration Index Obtained from DCP Tests for Cemented Lateritic Soils
p.399

A Model for Bond Strength in Presence of Corrosion in Concrete
p.404

Effect of High Temperature Process on Microstructure and Properties of Industrial Steel Slag Cement
p.413

Experimental Study on Permanent Deformation of Fine Sandy Subgrade Filling in Coastal Region
p.419

Rebar Anchor Plate Research and Application
p.425

Evaluation on Sulfuric Acid Resistance of Concrete Protected by Biomimetic Coating Mortar
p.431

Axial Behavior of Columns Strengthened with Seismic RC Jacket Section
p.437

HomeKey Engineering MaterialsKey Engineering Materials Vol. 814Effect of High Temperature Process on...

Effect of High Temperature Process on Microstructure and Properties of Industrial Steel Slag Cement

Abstract:

The construction industry continues to develop and the requirements for cement performance are getting higher and higher. At the same time, in the steel industry, the discharge of steel slag is also increasing. The effective reuse of steel slag has become a prominent problem in the steel industry. . Therefore, it is envisaged to use steel slag as a raw material for the cement production process to produce cement and to produce high-performance cement. The main raw materials of this experiment are steel slag, limestone, sandstone and shale. Through the cement preparation process, the cement is made, and then the cement is made into concrete to test its performance. This experiment mainly studies the sintering temperature and holding time variable. In the experimental test, the analysis and comparison were carried out in five aspects of the degree of macroscopic cracking, particle size, density, microstructure and composition. In the comparison experiment of sintering temperature, with the increase of temperature, the flexural and compressive properties of cement gradually increased. In this test, 1200 °C is the most suitable temperature for the performance of the cement. Through the experimental comparison of different holding time, it is known that with the prolonging of the holding time, the microstructure and actual performance of the cement are continuously enhanced. Comprehensive consideration: the ratio of steel slag in cement ratio is 10%, sintering temperature is 1200 °C, and heat preservation is 2h. The steel slag cement prepared under this condition has the strongest performance.

You might also be interested in these eBooks

Advanced Materials and Engineering Materials VIII

View Preview

Info:

Periodical:

Key Engineering Materials (Volume 814)

Pages:

413-418

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.814.413

Citation:

Cite this paper

Online since:

July 2019

Authors:

Fang Wang, Min Han Xu, Rui Hua Wang, Chao Yang, Ai Xia Chen, Shi Bin Li, Jie Guang Song*, Xue Qing Yang

Keywords:

Cement, High Temperature Process, Industrial Steel Slag, Microstructure

Export:

RIS, BibTeX

Price:

Permissions:

Request Permissions

* - Corresponding Author

References

[1] Q.S. Wu, Y. Wu, W.H. Tong, H.G. Ma, Utilization of nickel slag as raw material in the production of Portland cement for road construction, Constr. Build. Mater. 193 (2018) 426-434.