期刊
STRUCTURAL CONCRETE
卷 23, 期 3, 页码 1920-1932出版社
ERNST & SOHN
DOI: 10.1002/suco.202100704
关键词
micro-nano bubble; self-compacting concrete; shear thickening; shear thinning
资金
- Department of Civil Engineering at Kharazmi University
This research investigated the effect of using micro-nano bubbles and superplasticizers on the rheology of self-compacting concrete. The results showed that an increased rate of superplasticizer improved flowability and passing ability in all specimens. The samples made with micro-nano bubbles exhibited higher yield stress and plastic viscosity. Shear-thickening behavior was observed in samples produced with tap water and superplasticizer, while shear-thinning behavior was observed in SCC with micro-nano bubbles.
This research investigated the effect of using micro-nano bubbles and superplasticizers on the rheology of self-compacting concrete (SCC). Eight mix designs were made with different values of 4-5.5 kg/m(3) of superplasticizer. For comparison, half of the mix designs were made with micro-nano bubbles, and the rest were made with tap water. Flowability, passing ability, and rheological tests were performed on all mixed designs. The results show that an increased rate of superplasticizer from 4 to 5 kg/m(3) improved flowability and passing ability in all specimens. The yield stress and plastic viscosity of SCC reduction were higher in samples made with micro-nano bubbles. The shear-thickening behavior was observed in SCC samples produced with tap water and the superplasticizer, and the c/mu (positive) ratio increased. While in SCC with micro-nano bubbles, the shear-thinning behavior was observed, and the c/mu (negative) ratio increased with increasing the superplasticizer dose.
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