Mine Tailing as Alternative to Clay for Producing Belite Cement Clinker

Yong Chao Zheng; Qing Li; Yan Jun Liu

doi:10.4028/www.scientific.net/AMR.726-731.2704

Paper Titles

Experimental Study of Modified Coal Fly Ash Adsorption Properties on Ammonia-Nitrogen in Biogas Slurry
p.2687

Experimental Study on MDEA Regeneration by Vacuum Membrane Distillation
p.2691

Improvement of Waste Paper Pulp Properties by Using Aspen High-Yield Pulp
p.2695

Lower Heating Value Estimation of Coal Gangue through Proximate Analysis Data Based on GB/T 212-2008
p.2699

Mine Tailing as Alternative to Clay for Producing Belite Cement Clinker
p.2704

Partial Oxidation of Phenol in Supercritical Water
p.2714

Regulation and Control of Rhizopus oryzae on Lactic Acid Production from Kitchen Refuse
p.2718

Relationship between Physico-Chemical Properties and Related Enzymic Activities by Inoculating Microorganism Agent in the Composting Process
p.2723

Removal of Pb (II) from Aqueous Solution by Blast-Furnace Slags
p.2736

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 726-731Mine Tailing as Alternative to Clay for Producing...

Mine Tailing as Alternative to Clay for Producing Belite Cement Clinker

Abstract:

In this study, with iron ore tailing as an alternative to clay, three belite cement clinker samples were prepared in a muffle furnace at 1400°C for 10, 20 and 30 minutes respectively. And calcium sulphate and calcium fluoride were used as composite mineralizer with attempt to decrease clinkering temperature and improve hydraulic activity of dicalcium silicate. QXRD analysis shows that the major mineral components of the clinker are dicalcium silicate,account for over 80% of clinker, and trace amount of tricalcium silicate and ferrite. Scanning Electron Microscope (SEM) analysis indicates that mineral grains were growing with the prolonged soaking duration. EDS analysis identified that C₂S has a Ca/Si ratio varying from 2.07 to 2.32. And XPS analysis shows substantial amount of S and F atoms indented on clinker surface. Using 4×4×16cm mortar specimen, the mechanical strength of belite cement with 5% gypsum addition was investigated based on Chinese National Standard. The testing results show that three belite clinkers give very promising strength development at early ages, and very high strength gain was achieved at 28 days. In addition, this belite cement has a Lime Saturation Factor (LSF) of 0.76, which make it have potential for significant CO₂ emission reduction. Also, more than 35% iron ore tailing was exhausted for producing unit ton of belite cement clinker. High utilization rate leads to not only mineral waste exhaustion, also environmental improvement.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 726-731)

Pages:

2704-2713

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.726-731.2704

Citation:

Cite this paper

Online since:

August 2013

Authors:

Yong Chao Zheng*, Qing Li, Yan Jun Liu

Keywords:

Alternative to Clay, Belite Cement Clinker, Doping, Emission Reduction, Environmental Protection, Iron Ore Tailing, Strength

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[2] K. Pimraksa, S. Hanjitsuwan, P. Chindaprasirt. Synthesis of belite cement from lignite fly ash, Ceramics International. 35(2009)2415–2425.

DOI: 10.1016/j.ceramint.2009.02.006

Google Scholar

[3] Guo Suihua, Lin Zhen, Su Jiaohua et al. Hydration and paste structure of high belite Portland cement, Journal of the Chinese Ceramic Society. 28(2000,suppl)16-21.

Google Scholar

[4] Zheng Yongchao, Ni Wen, Xu Li, et al. Mechanic-chemical activation of iron Ore tailings and preparation of high-strength construction materials, Journal of University of Science and Technology Beijing. 32(2010)504-508.

Google Scholar

[5] Wang Jinzhong, Zhao Yinghua, Xu Piyuan. Experiment studies and mechanism analyses of Portland cement with iron-tailings as raw materials, Bulletin of the Chinese Ceramic Society. 6(1999)65-68.

Google Scholar

[6] Liu Wenyong, Zhang Changhai, Xu Xiaoliang, et al. Experimental research on preparation of cementing materials with iron tailings, Metal Mine. 12 (2010)175-178.

Google Scholar

[7] Yu Chungang, Li Xinji, Zhao Renying, et al. Utilizing Meishan iron-mine tailings instead of iron powder to produce high-quality cement clinker, Cement Engineering. 5 (2008)19-23.

Google Scholar

[8] Li Jifang，Liu Xiangyang, Iron tailings applied in the new type dry-process cement production line, Cement Guide for New Epoch. 4(2005)7-9.

Google Scholar

[9] Gong Jiangui, Zhang Zhen, Use iron tailings as one of the ingredients to produce portland cement clinker, Cement. 4(2011)33-34.

Google Scholar

[10] Sun Guixin, Zhou Yu, Sun Wei, Apply iron tailings as the ingredient to manufact high quality cement clinker, Cement. 3(2006)33-34.

Google Scholar

[11] H F W Taylor, Cement Chemistry, 2nd edition, NY.OSA: Thomas Telford Services Ltd, 1997.

Google Scholar

[12] Ludwig U, Pöhlmann R. Investigation on the production of low lime Portland cement. Proceedings of the 8th international congress on the chemistry of cement, Rio de Janeiro, Sub Theme 1.3, Vol.II(1986)363-371.

Google Scholar