Magnesium nickel

Bromine reacts with essentially all metals, except tantalum and niobium, although elevated temperatures are sometimes required, eg, soHd sodium does not react with dry bromine but sodium vapor reacts vigorously. Metals such as lead, magnesium, nickel, and silver react with bromine to form a surface coat of bromide that resists further attack. This protective coating allows lead and nickel to be used as linings in bromine containers. Metals tend to be corroded by bromine faster in the presence of moisture than without, probably because of the formation of hydrobromic and hypobromous acids. 

Of several mixed hydrides, the magnesium-nickel hydrides were the most hazardous in terms of dust explosions. 

Fukushima, Y. and Tani M. (1995) An organic/inorganic hybrid layered polymer methacrylate-magnesium (nickel) phyllosilicate. Chemical Communications, 241—242. 

Hydrogen absorption/desorption characteristics of magnesium-nickel alloy containing 23 atomic% Ni. (Reproduced with permission from Schwarz, R.B., Storage of hydrogen in powders with nanosized crystalline domains, Mater. Res. Bull., 24, 40, 1999, available at http //www.wtec.org/loyola/nano/US.Review/04 06.htm, May 2007.)... 

Copper, Zinc, Lead, Cadmium, Iron, Magnesium, Nickel, Cobalt, and Silver)... 

Incineration of domestic waste is also a contributor to environmental pollution. One more source of dioxins is pulp-and-paper industry. Comparatively new ways of forming polychlorinated dibenzo-p-dioxins and furans are high-temperature processes like copper melting in electric arc furnaces, and production of magnesium, nickel and, possibly, other metals of their chlorides. 

Other hydride systems do not have such weight penalties and include magnesium nickel alloys, non-metallic polymers, or liquid hydride systems that use engine heat to disassociate fuels like methanol into a mixture of hydrogen and carbon monoxide. 

Hexadienoic acid, 2385 Hexamethylenetetramine, 2477 Magnesium, 4690 Magnesium-nickel hydride, 4464 Paraformaldehyde, 0417 Poly(ethylene), 0782... 

Magnesium hydride, 4463 Magnesium-nickel hydride, 4464 Plutonium(III) hydride, 4509 Poly (germanium dihydride), 4415 Poly (germanium monohydride), 4413 Potassium hydride, 4427 Rubidium hydride, 4450 Sodium hydride, 4444 f Stibine, 4510 Thorium dihydride, 4489 Thorium hydride, 4540 Titanium dihydride, 4490 Titanium-zirconium hydride, 4491 Trigermane, 4421 Uranium(III) hydride, 4511 Uranium(TV) hydride, 4541... 

Keywords Magnesium, nickel, pigment, phythalocjanines, porphyrazine, spectroscopy, synthesis... 

Copper is by far the cheapest and most convenient material for use in making such a cell. Other metals such as magnesium, nickel, and monel metal have been used. Although there is some corrosion of the vessel and diaphragm, and some copper fluoride is formed in the electrolyte, this does no harm, but if, after a number of regen-... 

Hexadienoic acid, 2379 Hexamethylenetetramine, 2471 Magnesium, 4685 Magnesium—nickel hydride, 4458 Paraformaldehyde, 0416 Poly(ethylene), 0778... 

Magnesium—nickel hydride, 4458 Plutonium(III) hydride, 4504 Poly(germanium dihydride), 4409 Poly(germanium monohydride), 4407 Potassium hydride, 4421 Rubidium hydride, 4444 Sodium hydride, 4438 f Stibine, 4505 Thorium dihydride, 4483 Thorium hydride, 4535 Titanium dihydride, 4484 Titanium—zirconium hydride, 4485 Trigermane, 4415 Uranium(III) hydride, 4506 Uranium(IV) hydride, 4536 Zinc hydride, 4486 Zirconium hydride , 4487 See COMPLEX HYDRIDES, PYROPHORIC MATERIALS See entry LANTHANIDE—TRANSITION METAL ALLOY HYDRIDES... 

The MANOVA enables significant class separation with a multivariate scaled separation measure of 330.9. The sampling times 5 a.m. and 11 p.m. are well separable from the times 11 a.m. and 5 p.m. by the optimum separation set which consists in the features suspended material, iron, magnesium, nickel, and copper. The result of discriminant analysis is shown in the plane of the two strongest discriminant functions (Fig. 8-3). 

Thionyl fluoride, a colorless gas with an odor like phosgene, fumes mildly when exposed to moist air and is hydrolyzed very slowly by water. It is soluble in ether and benzene, melts at —129.5°, boils at —43.8°, and reaches the critical point at 89.0° and 55.3 atm.7 In the absence of moisture, pure thionyl fluoride does not attack silicon, magnesium, nickel, copper, zinc, or mercury up to 125°.7 It is reported to attack glass at 400°, but has no effect on iron at this temperature.2... 

G. Voss. Die Legierungen Nickel-Zinn, Nickel-Blei, Nickel-Thallium, Nickel-Wismut, Nickel-Chrom, Nickel-Magnesium, Nickel-Zink, Nickel-Cadmium // Z.anorg.Chemie. - 1908.-V.57,No.l.-P.34-72. 

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