Search Documents

Sort by

  • AUSIMM
    Magnesia from Magnesite by Calcination/Carbon Dioxide Leaching

    By Everson P. T, Moyle F. J

    Magnesite-rich and dolomite-rich ores from the Savage River region of Tasmania are being considered as potential feed material for a commercial process for production of magnesia.Two selected samples

    Jan 1, 1981

  • AUSIMM
    Magnesia from magnesite by calcination/carbonic acid leaching: Effect of magnesite/dolomite ratio

    By Moorrees C, Koh P. T, Tsambourakis G

    Calcination of samples from the Savage River region of Thsmania containing varying magnesite/dolomite ratios under conditions optimized for the magnesite component, followed by carbonic acid leaching

    Jan 1, 1987

  • AUSIMM
    Magnesia from Magnesite by Calcination/Carbonic Acid Leaching: Precipitation from Solution and Final Product Recovery

    By Moorrees C

    Tests show how that temperature and rate of sparging to remove carbon dioxide determine the rate of precipitation and the chemical and physical properties of hydrated magnesium carbonates precipitated

    Jan 1, 1985

  • AUSIMM
    Magnesia from Magnesite by Calcination/Carbonic Acid Leaching: Precipitation of Soluble Iron

    By Moorrees C

    Carbonic acid leaching of crude iron-containing magnesia derived from Savage River magnesite yields a magnesium bicarbonate leachate with a substantial soluble iron concentration. The iron concentrati

    Jan 1, 1984

  • AUSIMM
    Magnesia from Magnesite by Calcination/Carbonic Acid Leaching: Solubility of Magnesium and Iron

    By Moorrees C, Everson P

    A detailed examination of carbonic acid leaching of crude iron-containing magnesia derived from Savage River magnesite shows that the rate and extent of magnesium and iron dissolution are affected by

    Jan 1, 1983

  • TMS
    Magnesia Hydration in Magnesium Acetate Solutions

    By Dimitrios Fillippou

    Magnesium hydroxide is used in a number of industrial applications, from the neutralisation of acid effluents to the production of pharmaceuticals. High-quality magnesium hydroxide powders can be prod

    Jan 1, 1999

  • CIM
    Magnesia Refractories for Steel Furnaces

    By G. M. Carrie

    Introduction The subject of basic refractories is daily becoming of increased importance in metallurgical processes, and there is a constantly growing necessity for the development of better materi

    Jan 1, 1927

  • SAIMM
    Magnesia Refractory Dryout?Managing The Risk Of Hydration - Synopsis

    By J. D. Steenkamp

    In 2002 the commissioning of an ilmenite smelter on the North Coast of South Africa was extended by three months due to the failure and subsequent replacement of the magnesia-based refractory lining.

    Jan 1, 2011

  • SME
    Magnesia: Moving Beyond Refractories

    By Michael L. Maniocha

    Most magnesia (MgO), whether of natural or synthetic origin, is used in the dead-burned or periclase form as refractory linings for the production of steel. Continued research in refractory science, c

    Jan 1, 1997

  • SME
    Magnesite and Magnesia

    By L. R. Duncan, W. H. McCracken

    Magnesium is the eighth most abundant element in the earth's crust and the third most plentiful element in seawater. It is found in more than sixty minerals and in brines and seawater as a magnes

    Jan 1, 1994

  • AIME
    Magnesite and Related Minerals

    By L. R. Duncan, O. M. Wicken

    Magnesium, the eighth most abundant element in the earth's crust, is found widely distributed in a variety of minerals. Among the more commercially important ones are magnesite (MgCO,), brucite (

    Jan 1, 1975

  • AIME
    Magnesite And Related Minerals (89c69506-c63b-4dbd-bd0d-bcfced22ce11)

    By Raymond E. Birch, Oscar M. Wicken

    THE mineral magnesite, formerly the source of nearly all magnesia, now shares this role with brucite, dolomite, and the world's natural and artificial brines. The mineral magnesite is the normal

    Jan 1, 1949

  • AIME
    Magnesite And Related Minerals (a54774f4-30e9-414d-879a-9e69f4105927)

    By L. R. Duncan, O. M. Wicken

    Magnesium, the eighth most abundant element in the earth's crust, is found widely distributed in a variety of minerals. Among the more commercially important ones are magnesite (MgCO3), brucite (

    Jan 1, 1983

  • AIME
    Magnesite And Related Minerals (b6443c80-eacf-46f7-a882-fe1e5d26795f)

    By Oscar M. Wicken

    The mineral magnesite (MgCO3) if pure would consist of 47.7 pct MgO and 52.3 pct CO2. It is one of the calcite group of rhombohedral carbonates which includes calcite (CaCO3), siderite (FeCO3), rhodoc

    Jan 1, 1960

  • CIM
    Magnesite deposits at Kilmar, Quebec

    By Kilmar Mine

    The Kilmar dolomitic magnesite deposit~ in sourhwesr Quebec lie in Grenville Province sedimentary rocks that strike north and dip steeply west. The sediments comprise quartzitic, carbonate and argilla

    Jan 1, 1984

  • AIME
    Magnesite: Its Geology, Products And Their Uses

    By C. D. Dolman

    SINCE the outbreak of the war we have discovered in the United States minerals of which there was no general knowledge, and which compared very favorably with anything that could be found in any forei

    Jan 8, 1919

  • AIME
    Magnesite: Its Geology, Products and Their Uses - Discussion

    A. MALINOVSZKY,* Belleville, Ill. (written discussion?).-I have been very much interested in Mr. Dolman's paper. We all realize, I think, that this question of developing our home industries and

    Jan 10, 1919

  • AIME
    Magnesium

    By J. D. Hanawalt, W. H. Gross

    Magnesium has long been known as the lightest of our engineering metals. This metal, silvery white in color, has a specific gravity of only 1.74. Aluminum, the next lightest structural metal, is 1 ½

    Jan 1, 1953

  • AIME
    Magnesium - Its Etching And Structure

    By H. B. Pulsifer

    ABOUT 15 varieties, or modifications, of the best magnesium available were prepared and subjected to etching tests, then examined for microstructure. Of the 30-odd etching reagents that were tried, ne

    Jan 1, 1928

  • AIME
    Magnesium - Pilot-plant Production of Magnesia from Sloan Dolomite

    By R. G. Knickerbocker, R. R. Lloyd, W. T. Rawles

    In July 1041, the Experiment Station of the Bureau of Mines at Boulder City, Nevada, began a study of methods of producing magnesium metal from magnesium oxide, with particular emphasis upon the direc

    Jan 1, 1944