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Magnesium Alloys - Oxidation Inhibitors in Core-sand Mixtures for Magnesium CastingsBy O. Jay Myers
The war effort has furnished the necessary impetus for better magnesium foundry practice. Four or five years ago, there were but a few formulas in general use for core-sand mixtures for magnesium cast
Jan 1, 1945
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Magnesium Alloys - Solubility of Manganese in Liquid Magnesium (Metals Technology, June 1945) (With discussion)By N. Tiner
In an article on magnesium and its alloys, Gann and Winston! stated that manganese has a limited solubility in the liquid state. W. Schmidt2 showed a diagram according to Joseph Ruhrmann indicating th
Jan 1, 1945
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Magnesium Alloys - Water Quenching of Some Typical Magnesium Casting Alloys (With discussion)By R. E. Anderson, R. S. Busk
The mechanical properties of many nonferrous alloys can be modified by heat-treatment. This is almost always effected by controlling the amount of alloy in solid solution and the amount and distributi
Jan 1, 1945
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Magnesium Alloys Containing Rare Earths For Space Applications: Microstructural AspectsBy K. Suseelan Nair
Magnesium alloys containing rare earths are finding increasing applications in space programmes. A number of alloys have been developed and e good data base an the mechanical properties of these alloy
Jan 1, 1989
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Magnesium and Magnesium Alloys - Correlation of Optical and Electron Microscopy (Metals Tech., June, 1948, TP 2364)By J. S. Bryner
In the study of metallographic specimens in the electron microscope, there is need for a method of locating the same field in both the light microscope and the electron microscope. This need arises ch
Jan 1, 1949
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Magnesium and Magnesium Alloys - Electrical Properties of the Intermetallic Compounds Mg2Sn and Mg2Pb (Metals Tech., Oct. 1948, TP 2468)By W. D. Robertson, H. H. Uhlig
The intermetallic compounds MgzSn and Mg2Pb are two of the important series of stoichiometric compounds which magnesium forms with elements of the fourth group of the periodic system. Since there is a
Jan 1, 1949
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Magnesium and Magnesium Alloys - Factors Affecting the Tensile Notch Sensitivity of & Magnesium Alloy Extrusions (Metals Tech., Aug. 1948, TP 2419)By I. Cornet
With the greatly expanding use of magnesium during the war, it appeared necessary to the War Metallurgy Committee that the notch sensitivity of magnesium alloy extrusions be further investigated and t
Jan 1, 1949
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Magnesium and Magnesium Alloys - The Room and Elevated Temperature Properties of Some Sand Cast Magnesium-base Alloys Containing Zinc (Metals Tech., June, 1948, TP 2371)By T. E. Leontis
The importance of magnesium alloys in the manufacture of aircraft engines has been realized for many years. A concentrated effort has been exerted in the laboratories of the Dow Chemical Co. to develo
Jan 1, 1949
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Magnesium as a Possible Degradable Bio-Compatable MaterialBy G. Song
Magnesium has excellent bio-compatibility in terms of its density, strength, elastic modulus and toxicity. However, due to its poor corrosion performance, so far magnesium has not been successfully us
Jan 1, 2006
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Magnesium Chloride From Naturally Occurring Brines and EvaporitesBy A. F. Nylander, J. H. Jensen
Magnesium, in its combined forms, is the sixth most abundant element and the third most abundant metal in the earth's crust, but it is so reactive that it is never found in nature in the elementa
Jan 11, 1964
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Magnesium From OlivineBy E. C. Houston
THE presence in the Tennessee Valley of extensive deposits of olivine, a silicate of magnesium and iron that contains approximately 28 per cent magnesium, has been recognized since 1896 when Lewis8 pu
Jan 1, 1945
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Magnesium Hydroxides Production From Natural Brine In MichiganBy Paul E. Scheerer
Synthetically produced magnesium hydroxide serves as the precursor for much of the magnesium oxide produced in the world today. Magnesium oxide, in a variety of physical and chemically reactive forms,
Jan 1, 1978
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Magnesium IndustryBy J. D. Hanawalt
Significant strides were made in the year 1948 leading to further recognition of the place of magnesium as a common commercial metal, rather than as just a premium aircraft material. One of the factor
Jan 1, 1949
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Magnesium Oxide For Deep Bed Filtration Of Water ? ObjectiveTo improve efficiency in producing clarified water from mineral and metallurgical processing streams containing suspended particles. Approach Particles suspended in mineral and metallurgical proce
Jan 1, 1983
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Magnesium Oxide for Improved Heavy Metals RemovalBy J. E. Schiller, S. E. Khalafalla
To improve technology for treating process water, US Bureau of Mines research has shown that magnesium oxide (MgO) has many advantages over lime or caustic soda for precipitating heavy metals. Sludge
Jan 1, 1985
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Magnesium Oxide Suppression during Nickel FlotationBy R. Casagrande, L. R. Moore, J. Sessoms, P. Macy
"A South American nickel mine has been producing a nickel concentrate that also contains copper and iron (15 percent nickel, 5 percent copper, 28 percent iron) for the end use of stainless steel produ
Jan 1, 2015
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Magnesium Removal from Secondary Aluminum Melts in Reverberatory and Rotary FurnacesBy Eulogio Velasco, Jose Nino, Marcos Cardoso
"Recycling of aluminum scrap for production of secondary alloys used for automotive applications is increasing continuously. Automotive alloys require a strict control to remove alloy impurities, incl
Jan 1, 2011
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Magnesium Sheet Production Today and TomorrowBy Fr. -W. Bach
In the past years the enormous weight saving potential of magnesium sheet has been demonstrated by various research projects all over the world. It has been shown magnesium flat products can benefit a
Jan 1, 2006
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Magnesium Sulfate Production ù First Value Added Salt From Saline Waters of the Murray Basin (Australia)By T Barto, D Thomson, T Norgate, C Doblin
Collaboration between CSIRO Minerals and SunSalt Pty Ltd, a salt producing company located in rural Victoria, has resulted in a commercial process to recover magnesium sulfate (commonly called Epsom s
Jan 1, 2004
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Magnesium Technologies -Present and FutureBy Robert E. (Bob) Brown
Magnesium was discovered by Davy in 1808. The production processes as they exist are not economically competitive with aluminum The electrolytic magnesium process is divided into two steps; one to mak
Jan 1, 2001