Advanced search
Publication Cover
Mineral Processing and Extractive Metallurgy Review
An International Journal
Volume 37, 2016 - Issue 4
Submit an article Journal homepage
1,278
Views
47
CrossRef citations to date
0
Altmetric
Articles

A Short Review on Utilization of Ferrochromium Slag

Nilamadhaba SahuTata Steel Limited, Research and Development, Burmamines, Jamshedpur, India
,
Arijit BiswasTata Steel Limited, Research and Development, Burmamines, Jamshedpur, IndiaCorrespondence[email protected]
&
Gajanan U KapureTata Steel Limited, Research and Development, Burmamines, Jamshedpur, India
Pages 211-219 | Published online: 08 Jun 2016

References

  • Ashimov, U. B., and Satvaldiev, D. S., (1983), “A study of the slag from ferrochrome production at the Aktyubinsk Iron Smelting Plant.” Refractory, 24, 189–191.
  • Ashimov, U. B., Bolotov, A. V., and Satvaldiev, D. S., (1984), “Using ferrochromium slags in the preparation of forsterite refractory.” Refractory, 25, 210–213.
  • Borovkova, L. B., Kovalskaya, K. V., and Poluboyarinov, D. N., (1966), “sintering and thermomechanical properties of magnesiochromite.” Refractories, 7, 715–720.
  • Booysen, H., (2008), “The Use of the Waste Delisting Process-Case Study: The Management of Ferrochromium Slag as a Construction Product in South Africa. ” Master’s thesis, South Africa, North-West University.
  • Cabrera, H., Serrano, A. R., Zeifert, B., Ramirez, A. H., Lopez, M. H., and Ramirez, A. C., (2012), “Effect of MgO and CaO/SiO2 on the immobilization of chromium in synthetic slags.” Journal of Material Cycles and Waste Management, 14, 317–324.
  • Chen, C. H., and Presnall, D. C., (1975), The system Mg2SiO4-SiO2 at pressures up to 25 kilobar. American Mineralogist, 60, 398–406.
  • Department of Water Affairs & Forestry, (1998). Waste Management Series. “Minimum Requirements for the Handling, Classification and Disposal of Hazardous Waste. ” CTP Book Printers, Cape Town, South Africa.
  • Erdem, M., Altundogan, H. S., M., Turan, M. D., and Tumen, F., (2005). Hexavalent chromium removal by ferrochromium slag. Journal of Hazardous Materials, 126, 176–182.
  • Factsage thermochemistry, “Factsage”, (2016). Web 20 Oct 2015. http://www.crct.polymtl.ca/fact/pdweb.php
  • Gencel, O., Koksal, F., Ozel, C., and Brostow, W., (2012), “Combined effects of fly ash and waste ferrochromium on properties of concrete.” Construction and Building Materials, 29, 633–640.
  • Gericke, W. A., (1995), “Environmental aspect of ferrochrome production.” Infacon, 7, June 11–14, 131–140.
  • Guloyan, Y. A., Katkova, K. S., Smirnov, V. F., Sudin, A. F., Basova, M. A., and Korobov, S. G., (1972), “Use of ferrochromium slags in the production of bottles.” Glass and. Ceramics, 29, 527–529.
  • Hayes, P.C., (2004). “Aspects of SAF smelting of ferrochrome.” Infacon, 10, 1–14.
  • Hayhurst, A., (1974). “Crystallization processes in a high-carbon ferrochromium slag.” Infacon, 1, 187–193.
  • Julian, R., and Goldsmith, (1980), The melting and breakdown reactions of anorthite at high pressures and temperatures. American Mineralogist, 65, 222–284.
  • Kilau, H. W., and Shah, I. D., (1984), “Chromium-bearing waste slag: evaluation of leachability when exposed to simulated acid precipitation“, Hazardous and industrial waste management testing- Third symposium., ASTM STP, 851, 61–80.
  • Kindness, A., Macias, A., and Glasser, F. P., (1994), “Immobilization of chromium in cement matrices.” Waste Management, 14, 3–11.
  • Kuhn, Behmenburg., Capodilupo, and Romera, Q., (2000), Report on Decreasing the scorification of chrome. ECSC steel publications, Brussels.
  • Kumar, P. H., Srivastava, A., Kumar, V., Majhi, M. R., and Singh, V. K., (2014), “Implementation of industrial waste ferrochromium slag in conventional and low cement castables: Effect of calcined alumina.” Journal of Asian. Ceramic Society, 32, 371–379.
  • Lind, B. B., Fallman, A. M., and Larsson, L. B., (2001), “Environmental impact of ferrochromium slag in road construction.” Waste Management, 21, 255–264.
  • Nassar, M. Y., Ahmed Ibrahim, S., and Samir, I., (2014), “A novel synthetic route for magnesium aluminate (MgAl2O4) nanoparticles using sol–gel auto combustion method and their photocatalytic properties.” Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 131, 329–334.
  • Nkohla, M. A., (2006), Characterization of ferrochrome smelter slag and its implications in metal accounting. ”, Master’s thesis, South Africa, Cape Peninsula University of Technology.
  • Niemela, P., and Kauppi, M., (2007), “Production, Characteristics and use of ferrochromium slags.” Infacon, 11, February 18-21, 171–179.
  • Panda, C. R., Mishra, K. K., Panda, K. C., Nayak, B. D., and Nayak, B. B., (2013). “Environmental and technical assessment of ferrochromium slag as concrete aggregate material.” Construction and Building Materials, 49, 262–271.
  • Perepelitsyn, V. A., Savchenko, Y. I., Bezhaev, V. M., and Tabatchikova, S. N., (1986), “Petrochemical calculation in the production of forsterite-spinel refractories from carbon ferrochromium slags.” Refractory, 27, 568–572.
  • Richard, P., (2015), “Overview of the global chrome market.” INDINOX Stainless Steel Conference, 1, January 25–26, Ahmedabad.
  • Ringdalen, E., Rocha, M., and Figueiredo, P., “Energy consumption during HCFeCr-production at Ferbasa.” INFACON, 15, May-June, Kiev, Ukrain.
  • Tanskanen, P. A., and Makkonen, H. T., (2005), “Applied mineralogy and petrology—examples of useful methods for slag composition and property design.” 4th European Slag Conference, Oulu, 71–82.
  • Touvinen, F. H., (1989), “Method for utilizing slag from ferroalloy production.” US patent, 4, 818–290.
  • Wikipedia, “Forsterite”, 2016. Web. 16 Jan.2016. https://en.wikipedia.org/wiki/Forsterite
  • Yilmaz, A., and Karasahin, M., (2013), “Compressive strength of cement bound base layers containing ferrochromium slag.” Turkish Journal of Engineering and Environmental Science, 37, 247–258.
  • Zaldat, G. I., Kamyshnikov, V. V., Suvorov, S. A., Volkov, V. S., Koshkin, G. A., Yurman, M. G., Ostrovskii, Y. I., and Naryzhnyi, V. D., (1984). “Fused refractory materials based on magnesia slags.” Refractory, 25, 125–130.
  • Zelic, J., (2005). “Properties of concrete pavement prepared with ferrochromium slag as concrete aggregate.” Cement and Concrete Research, 35, 2340–2349.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.