Sulfuric magnesium alloys

IRRADIATION DECOMPOSITION INCIDENTS SELF HEATING AND IGNITION INCIDENTS Aluminium-magnesium alloy Iron(III) oxide, Water, 0053 Ahmiinium-magnesium-zinc alloy, Rusted steel, 0054 Carbon dioxide, Flammable materials, 0557 Carbon dioxide, Metals, 0557 f Ethylene, Steel-braced tyres, 0781 Oxygen (Liquid), Asphalt, 4832 f Sulfur, Static discharges, 4897... [Pg.201]

Strontium nitrate Dextrin Red gum Polyvinyl chloride White sparks aluminum, magnesium, aluminum-magnesium alloy, titanium Whistle effect potassium benzoate or sodium salicylate White smoke mixture of potassium nitrate and sulfur Colored smoke mixture of potassium chlorate, sulfur, and an organic dye... [Pg.525]

ACETATO MERCURIOSO (Spanish) (21908-53-2) A strong oxidizer. Violent reaction with reducing agents, acetyl nitrate, diboron tetrafluoride, disulfur dichloride, combustible materials, fuels, hydrazine hydrate, hydrogen peroxide, hydrogen trisulfide, hypophospho-rous acid, methanethiol, phospham. sodium-potassium alloy, sulfur, sulfur trioxide. Incompatible with alcohols, alkali metals, ammonium nitrate, diboron tetrafluoride, hydrazinium nitrate, hydrogen sulfide, nitroalkanes, rubidium acetylide, selenium oxychloride. Forms heat-, friction-, or shock-sensitive explosives with anilinium perchlorate, chlorine, phosphorus,. sulfur, magnesium, potassium, sodium-potassium alloy. May increase the explosive or thermal sensitivity of nitromethane, nitroethane, 1-nitropropane and other lower nitroalkanes, silver azide, hydrazinium perchlorate. Slowly decomposes on exposure to air. [Pg.6]

BARIUM DINITRATE (10022-31-8) A strong oxidizer. Incompatible with reducing agents, combustibles, strong acids, other oxidizers. Mixtures with sulfur, finely divided metals (especially aluminum and magnesium alloys) can form shock- and friction-sensitive compounds. Contact with ammonium nitrate may cause spontaneous fire or explosion. [Pg.151]

C. Chemical modification of the glued surfaces by the formation of passivating layers. The modification technique depends on the nature of the metal. The parts are most often subjected to acid pickling, e.g. aluminum alloys are anodized in sulfuric and chromic acids. It is preferable to anodize aluminum parts in sulfuric acid followed by treatment of the anodic film in a bichromate. There are several methods of pickling carbon and stainless steels, chemical oxidation of magnesium alloys as well as copper and titanium alloys before gluing [4]. [Pg.338]

Magnesium ferrosihcon alloys react vigorously when added to molten iron. As the magnesium vaporizes and cools, it reacts with residual surface tension modifiers such as sulfur and oxygen and greatly increases the surface tension of the molten iron. The dissolved graphite in the molten iron nucleates and grows into a spheroidal shape because of the increased surface tension of the molten iron. [Pg.540]