Your search keyword '"Liu, Guiqun"' showing total 2 results

1. Formation of Spinel Phases in Oxidized BOF Slag under Different Cooling Conditions.

Author

Jiang, Liang, Bao, Yiwang, Yang, Qixing, Chen, Yuhong, Liu, Guiqun, Han, Fenglan, Wei, Jie, Engström, Fredrik, and Deng, Jiangyuan

Subjects

INDUSTRIAL wastes, STEEL industry & the environment, SLAG -- Environmental aspects, OXIDATION, SPINEL

Abstract

To enhance utilization of wastes generated from steelmaking, a BOF slag sample from Ning Steel group in China is treated by oxidizing at 1500 °C for 30 min and then cooled by different methods. The treated samples are characterized, in combination with calculations using FactSage 6.4. XRD results show that iron oxides in BOF slag are converted largely by the oxidation to spinel phases, Fe3O4 and MgFe2O4, which also eliminates free CaO and MgO. EDS analyses show Fe element existing in di-calcium silicate and glass phase, which are Fe3+ ions formed by oxidation. An incorporation of Fe3+ ions into crystal structures has stabilized high temperature polymorph of C2S, β-C2S, and α'-C2S, in the treated slag samples. Fe3+ ions may also act as a network former to facilitate glass formation. This may make it possible for the glass and α'-C2S phase to complement each other, leading to a higher hydraulicity, while the BOF slag, after the spinel separation, is blended in cements. Some suggestions are proposed, based on the present and early studies, to enhance hydraulicity for the BOF slag, as well as grain sizes of spinel phases, which may result in economic and environmental benefits for steel and cement industries. [ABSTRACT FROM AUTHOR]

Published

2017

2. Research on the sintering process and characteristics of belite sulphoaluminate cement produced by BOF slag.

Author

Xue, Peng, Xu, Anjun, He, Dongfeng, Yang, Qixing, Liu, Guiqun, Engström, Fredrik, and Björkman, Bo

Subjects

*SINTERING, *SULFOALUMINATE cement, *SLAG, *TEMPERATURE effect, *PORTLAND cement

Abstract

The sintering process of belite sulphoaluminate cement (CSA 1 The abbreviations used in this essay are listed as below: belite sulphoaluminate cement = CSA, ordinary Portland cement = OPC, C = CaO, S = SiO 2 , A = Al 2 O 3 , F = Fe 2 O 3 , S ¯ = SO 3 , H = H 2 O. 1 ) clinker is still not clear to date. Besides, there are few reports concerning producing CSA by recycled BOF slag. Therefore, the sintering process of CSA was investigated from this perspective and the results can be a reference for BOF slag disposal. Four kinds of CSA clinkers with different additions of BOF slag were sintered at 1300 °C for 30 min. The sintering process was traced by heating microscope and the characteristics were analyzed by XRD, SEM-EDS and TAM Air. The results showed that the sintering degree of CSA clinker could be predicted by analyzing its sintering process. Furthermore, BOF slag could improve the melting state of CSA clinkers due to its composition containing iron oxide, manganese oxide and magnesium oxide. However, expansion was detected when the temperature reached 420 °C, which was arose by combined factors, namely volatilization of CO 2 decomposed from MgCO 3 and the thermal expansion of raw materials itself. The rational ratios of C 2 S, C 4 A 3 S ¯ , C 4 AF in CSA clinker with 14% BOF slag as raw material stood at 50%, 30%, 20% and its early hydration behavior was better than that of ordinary Portland cement (OPC) at the initial 16 h. [ABSTRACT FROM AUTHOR]

Published

2016