Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
4918063 | Construction and Building Materials | 2017 | 11 Pages |
Abstract
To promote the large-scale application of ground granulated blast furnace slag powder (GGBFS) in the cement and concrete industry, high-performance slag-based composite admixtures (SCAs) were prepared with GGBFS as the main raw material and converter steel slag powder (SS), limestone powder (LP) and fly ash (FA) as auxiliary raw materials. The effects of the fineness and content of each auxiliary raw material on the performance of the SCA were investigated. The experimental results showed that SS had multiple beneficial effects on mortar and concrete; it can increase the strength, reduce the bleeding and compensate for the shrinkage of the concrete. The best performance of medium- and low-strength concrete with a high SCA content was achieved using the SCA with the following composition: GGBFS: 64%; SS: 20%; LP: 6%; and FA: 10%. The fresh Portland cement (PC)Â +Â SCA concrete specimens had better fluidity and stability than the PCÂ +Â GGBFS concrete specimen, and the compressive strengths of the PCÂ +Â SCA concrete specimens were the same or slightly higher than that of the PCÂ +Â GGBFS concrete specimen. The results of scanning electron microscopy, X-ray photoelectron spectroscopy and pore size analysis showed that the concrete specimens prepared with PCÂ +Â SCA had significantly smaller and fewer large pores and a more uniform and dense interfacial structure than the concrete specimen prepared with PCÂ +Â GGBFS. The exceptional performance of SCAs results from the advantageous synergistic effects of GGBFS and SS.
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Authors
Zaibo Li, Xuguang Zhao, Tusheng He, Sanyin Zhao, Yang Liu, Xiaoling Qu,