Study on Cementing Material Making with Electrolytic Manganese Residue
Jia Wang, Bing Peng,
Liyuan Chai,
Qiang Zhang,
Qin Liu,
Jia Wang, Bing Peng
School of Metallurgical Science and Engineering, Central South University, Changsha, 410083, China
Search for more papers by this authorLiyuan Chai
School of Metallurgical Science and Engineering, Central South University, Changsha, 410083, China
Search for more papers by this authorQiang Zhang
School of Metallurgical Science and Engineering, Central South University, Changsha, 410083, China
Search for more papers by this authorQin Liu
School of Metallurgical Science and Engineering, Central South University, Changsha, 410083, China
Search for more papers by this authorJia Wang, Bing Peng,
Liyuan Chai,
Qiang Zhang,
Qin Liu,
Jia Wang, Bing Peng
School of Metallurgical Science and Engineering, Central South University, Changsha, 410083, China
Search for more papers by this authorLiyuan Chai
School of Metallurgical Science and Engineering, Central South University, Changsha, 410083, China
Search for more papers by this authorQiang Zhang
School of Metallurgical Science and Engineering, Central South University, Changsha, 410083, China
Search for more papers by this authorQin Liu
School of Metallurgical Science and Engineering, Central South University, Changsha, 410083, China
Search for more papers by this authorBook Editor(s):Tao Jiang, Jiann-Yang Hwang,
Patrick Masset,
Onuralp Yucel,
Rafael Padilla,
Guifeng Zhou,
Jiann-Yang Hwang
Search for more papers by this authorPatrick Masset
Search for more papers by this authorOnuralp Yucel
Search for more papers by this authorRafael Padilla
Search for more papers by this authorGuifeng Zhou
Search for more papers by this authorSummary
This chapter contains sections titled:
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Introduction
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Materials and Methods
-
Results and Discussion
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Conclusions
-
Acknowledgments
References
- Chaoming Pang, Hong-gen Qin and Chunmei Zhang. “Influence of Activators on Properties of Binding Materials with Industrial wastes,” China Concrete and Cement Products, 3 (2005), 11–13
- Weiguo Shen, Zhi Cai and Wei Ma. “Investigation on the Thermodynamic of the Industrial Solid Waste Cementitious Materials,” Journal of Wuhan University of Technology, 30 (5) (2008), 19–23
- Yiyun Lin, Jiangshan Zhang and Changqing Liu. “Generation Prediction and Countermeasure of Industrial Solid Waste in China,” Environmental Science and Management, 33 (7) (2008), 47–50
- Hong Huang, Mingliang Tang and Xiaodong Shen. “The Resourcing of Industrial Waste and Its Sustainable Development-Combine Tightly with Cement and Concrete Industrial for Sustainable Development,” Materials Review, 2 (5) (2006), 455–458
- Huifen Yang, Solid Waste Treatment Technology and Application (Bei Jin, BJ: Machine Press, 2003), 55–62
- Qing Shi, Building Materials of Industrial Waste (Bei Jin, BJ: China Environmental Industry Press, 1992), 47–59
- Bilinshki H, Kwokal Z and Branica M. “Formation of some manganese minerals from ferromanganese factory waste disposed in the Krka River Estuary,” Water Research, 30 (30) (1996), 495–500
- Jun Yao, Wenxue Wu and Xiaoduan Yang. “The Pollution From the Electro-manganese Plant in Wan Rong Jiang River,” Journal of Jishou University (Natural Science Edition), 20 (3) (1999), 30–33
- Jianqi De. “Preparation of Mn fertilizer with waste manganese residue,” Phosphate and Compound Fertilizer. 3 (1997), 14–16.
- Bo Chen, Qijing Pan and Benguo Zhong. “Chemical Manganese Dioxide Made from Slag Containing Manganese,” China's Manganese Industry, 14 (1) (1996), 32–36
- Guojun Ke and Zhuanbo Liu. “Binding Material Made of Waste Electrolyzed Manganese Slag,” Construction Conserves Energy, 3 (1995): 19–20
- Yun Feng, Yanxin Chen and Fei Liu. “Studies on replacement of gypsum by manganese slag as retarder in cement manufacture,” Modern Chemical industry, 26 (2) (2006), 57–60
- Songlin Gao, Yun Feng and Lifeng Song. “Set Controlling Admixture Test Using Electrolytic Manganese Slag Instead on Gypsum,” Cement Technology, 6 (2001), 75–76
- Zhongwei Wu. “High Performance Concrete-Green Concrete,” China Concrete and Cement Products, 1 (2000), 3–6
- Weizu Tan. “Review and Looking Forward to High Performance Concrete,” Architecture Technology, 1 (2004), 12–16
- Tanping Li, Hualin Xie and Xiaomei He. “Experimental Study of Calcinated Electrolysis Manganese Residue and Fly Ash Complex admixture,” Bulletin of the Chinese Ceramic Society, 26 (3) (2007), 567–592
- Jun Xie and Huiming Bao. “study on service test of cement mortar and concrete mixed with manganic sintering temperature,” Subgrade Engineering, 5 (2007), 156–158
- Zhenying Guan. “Study on Using Residue From Electrolysing Manganese as Cement Retarding Agent,” China's Manganese Industry, 18 (2) (2000), 36–37
- National Cement Standardization Technical Committee, GB/T18046–2000 Ground Granulated Blast Furnace Slag Used for Cement and Concrete (Bei Jin, BJ: China Standards Press, 2000), 1–15
- National Cement Standardization Technical Committee, GB/T1346–2001 Test Methods for Water Requirement of Normal Consistency, Setting Time and Soundness of the Portland Cements (Bei Jin, BJ: China Standards Press, 2001), 1–10
- Runzhang Yuan. Cementing Material (Wu Han, WH: Wu Han Industry University Press, 1996), 78–89
- Powell D A. “Transformation of the α- and b̃- forms of calcium sulphate hemihydrates to in soluble anhydrite,” Nature, 182 (1958), 792–796
- France National Society of Plaster Industries, Plaster: Physic-Chemistry and Fabrication-Application, ed. Yang Deshan (Bei Jin, BJ: China Building Industrial Press, 1987), 67–70
- Askland D R, The Science and Engineering of Materials (London, L: Van Nostrand Reihold Co Ltd, 1988), 124
- Barnes P, Cement Construct and Property (Bei Jin, BJ: China Building Industrial Press, 1987), 182–210
- Guojun Ke. “Hydration Mechanism of Binding Material Made of Burnt Manganese-Cement,” Journal of Central-South Institute of Technology, 11 (2) (1997), 8–13
