Spectroscopic Analysis of Weak Acid Modified Steel Slag Powder
ZHANG Hao1, 2, 3, ZHANG Xin-yu3, LONG Hong-ming1, 2, 3*
1. School of Metallurgical Engineering, Anhui University of Technology, Ma’anshan 243032, China
2. Key Laboratory of Metallurgical Emission Reduction & Resources Recycling (Anhui University of Technology), Ministry of Education, Ma’anshan 243002, China
3. School of Civil Engineering and Architecture, Anhui University of Technology, Ma’anshan 243032, China
Abstract:Taking steel slag powder as the object of study, weak acid modified steel slag powder was prepared by phosphoric acid modified steel slag powder. Weak acid modified steel slag powder was characterized by X-ray diffractometer, specific surface area and aperture meter and environmental scanning electron microscope. Composition, pore structure, microstructure and element composition of weak acid modified steel slag powder were researched. The results showed that the proper phosphate solution can effectively remove the f-CaO in the steel slag powder and improve pore structure of weak acid modified steel slag powder. The excess phosphate solution reacts with Ca(OH)2 in steel slag powder, causing structure of weak acid modified steel slag powder to collapse, and showing fleeciness as a whole. When steel slag powder is 80 g and phosphate solution is 1.6~3.2 mL, weak acid modified steel slag powder has low f-CaO content and good pore structure. It provides technical support and theoretical basis for further expanding the utilization methods of steel slag.
[1] Liao J L, Zhang Z H, Ju J T, et al. Advanced Materials Research, 2014, 835-836: 378.
[2] Cahyono R B, Rozhan A N, Yasuda N, et al. Fuel, 2013, 109(7): 439.
[3] Morel F, Bounor-Legaré V, Espuche E, et al. European Polymer Journal, 2012, 48(5): 919.
[4] Murri A N, Rickard W D A, Bignozzi M C, et al. Cement and Concrete Research, 2013, 43 (1): 51.
[5] Smirnov N A, Basov A V, Magidson I A. Russ. Metall. (Metally), 2010, 2009(8): 774.
[6] Zhuang P, McBride M B, Xia H, et al. Science of the Total Environment, 2009, 407(5): 1551.
[7] Bakharev T, Sanjayan J G, Cheng Y. Cement and Concrete Research, 1999, 29(1): 113.
[8] ZHU Ming, HU Shu-guang, DING Qing-jun(朱 明,胡曙光,丁庆军). Journal of Wuhan University of Technology(武汉理工大学学报), 2005, 27(6): 48.
[9] ZHANG Hao, LONG Hong-ming, YANG Gang, et al(张 浩,龙红明,杨 刚,等). The Chinese Journal of Process Engineering(过程工程学报), 2017, 17(4): 810.
[10] LI Xiao-guang, LIU Yun-xiao, MA Xin(李晓光,刘云霄,马 昕). Journal of Building Materials(建筑材料学报), 2014, 17(3): 401.
