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Chlorine nitrate, fluorination

Chlorine monofluoride oxide, 18 328-330 force field of, 18 329, 330 infrared spectrum of, 18 328, 329 stretching force constants for, 18 330 synthesis of, 18 328 Chlorine nitrate fluorination of, 18 332 preparation of, 5 54 Chlorine oxides, 46 109-110, 158 fluorination of, 18 348 Chlorine oxyfluorides, 18 319-389, see also specific compounds adduct formation, 18 327, 328 amphoteric nature of, 18 327, 328 bond lengths, 18 326 bond strengths, 18 323-327 geometry of, 18 320-323 ligand distribution, 18 323 reactivity of, 18 327, 328 stretching force constants, 18 324-327 Chlorine pentafluoride oxide, 18 345, 346 Chlorine trifluoride, reaction with difluoramine, 33 157... [Pg.46]

The method 176, 226, 229) most suitable for the preparation of ClFsO on a larger scale involves the fluorination of chlorine nitrate at —35°C according to ... [Pg.332]

Typical fuels are magnesium (sometimes mixed with aluminum), manganese, and silicon. Typical oxidizers include the nitrates of barium, sodium, potassium, and strontium. Binders used are castor and linseed oils and paraffin waxes. Another interesting flare mix is magnesium or teflon. The chlorine and fluorine from the teflon are the oxidizers in this mix. Magnesium or teflon flares burn several hundred degrees (°C) hotter than metal or salt flares and radiate very strongly in the infrared spectrum. [Pg.456]

TIN or TIN POWDER (7440-31-5) Sn Finely divided material is combustible and forms explosive mixture with air [autoignition temp (dust cloud) 1166°F/630°C]. Contact with moisture in 911 forms tin dioxide. A reducing agent the powder is very reactive. Violent reaction with strong acids, strong oxidizers, ammonium perchlorate, ammonium nitrate, bis-o-azido benzoyl peroxide, bromates, bromine, bromine pentafluoride, bromine trifluoride, bromine azide, cadmium, carbon tetrachloride + water, chlorine, chlorine monofluoride, chlorine nitrate, chlorine pentafluoride, chlorites, copper(II) nitrate, dimethylarsinic acid, fluorine, hydriodic acid, iodine heptafluoride, nitrosyl fluoride, oxygen difluoride, perchlorates, perchloroethylene, potassium dioxide, phosphorus pentoxide, sulfur, sulfur dichloride, turpentine (fire or explosion). [Pg.1008]

DICLORURO de ESTANO (Spanish) (7772-99-8) A strong reducing agent. Reacts violently with strong oxidizers, strong alkalis, bromine, bromine trifluoiide, calcium carbide, chlorine, chlorine monofluoride, copper nitrate, fluorine, hydrogen peroxide, nitrates, potassium, potassium dioxide, sodium, with risk of fire and explosions. Incompatible with calcium acetylide, hydrazine hydrate, metal nitrates. [Pg.410]

SODIUM IODIDE (7681-82-5) Reacts violently with bromotrifluoride, perchloric acid, perchloryl fluoride, oxidants, chlorine trifluoride, fluorine, hydrazine. Incompatible with acrolein, isopropyl chlorocarbonate, mercuric salicylate, mercurous chloride, nitrosyl perchlorate, paraldehyde, peroxyfuroic acid, phosphorus pentoxide, silver nitrate, sodium acetylide, sodium borohydride. May sensitize organie azides, hydrazinium perchlorate. [Pg.1081]

Generation of NO3 via the reaction (Equation 4.21) also takes place during photolysis of a mixture of molecular fluorine (5.0 x 10 molecule/cm ) and HNO3 (2.0 x 10 molecule/cm ) at A. > 180 nm [20]. Two other methods used in the work [20] for this purpose are based on photolysis of a mixture of chlorine (2.0 x 10 molecule/cm ) and chlorine nitrate or the photolysis of chlorine nitrate ... [Pg.97]

Zinc Hydrosulfite Zinc Nitrate Fluorine Graphite Oxygen Chlorine Nitrous Acid Sulfurous Acid Hydrogen Sulfide Selenic Acid Ammonium Hyposulfite Ammonium Thiosulfate Ammonium Sulfate Ammonium Phosphate Dibasic Diammonium Phosphate Hexafluorouranium Uranium Hexafluoride Silver Chloride Aluminum Fluoride Aluminum Trifluoride Aluminum Ammonium Sulfate Ammonium Alum Silver Bromide Magnesium Chloride Magnogene Barium Sulfite Bismuth Trichloride Cesium Bromide... [Pg.3489]

Copper Acetylene and alkynes, ammonium nitrate, azides, bromates, chlorates, iodates, chlorine, ethylene oxide, fluorine, peroxides, hydrogen sulflde, hydrazinium nitrate... [Pg.1207]

A pyrotechnic composition contains one or more oxidizers in combination with one or more fuels. Oxidizers used in pyrotechnics, such as potassium nitrate, KNO, are soflds at room temperature and release oxygen when heated to elevated temperatures. The oxygen then combines with the fuel, and heat is generated by the resulting chemical reaction. Chemicals that release fluorine or chlorine on heating, such as polytetrafluoroethylene (Teflon)... [Pg.346]

OXIDIZING AGENT Coiupound that gives up oxygen easily or removes hydrogen from another compound. It may comprise a gas, e.g. oxygen, chlorine, fluorine, or a chemical which releases oxygen, e.g. a nitrate or perchlorate. A compound that attracts electrons. [Pg.16]

See other pages where Chlorine nitrate, fluorination is mentioned: [Pg.332]    [Pg.233]    [Pg.1085]    [Pg.334]    [Pg.141]    [Pg.753]    [Pg.383]    [Pg.381]    [Pg.20]    [Pg.214]    [Pg.646]    [Pg.744]    [Pg.959]    [Pg.961]    [Pg.976]    [Pg.981]    [Pg.981]    [Pg.982]    [Pg.760]    [Pg.245]    [Pg.11]    [Pg.4550]    [Pg.64]    [Pg.668]    [Pg.266]    [Pg.442]    [Pg.341]    [Pg.25]    [Pg.440]   
See also in sourсe #XX -- [ Pg.332 ]



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Fluorine nitrate

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