TH731A - Emulsion explosive mixtures And manufacturing processes of the said explosives - Google Patents

Abstract

Improved emulsifying explosives with improved storage stability are obtained by the inclusion of an aqueous solution of anhydrous salt. Inorganic oxidizing agent With oil appears the liquid sector while doing Stirring in the presence of fatty acids such as oleic or stearic acid, and ammonium or metal alkali hydroxide and emit gas bubbles. Or the cavity dispersed into the emulsion Water-in-oil to emulsify fire, including salt, acid, fat, occurs in During the process The product contains salts, acids, fats, fatty acids and hydroxides in a stable balance. Which will make the product Retains its explosive properties after storage at Temperatures up to 49 degrees C or more.

Claims (1)

Disclaimer (all) which will not appear on the advertisement page: (1) A process for producing an emulsifying explosive mixture consisting of aqueous solution of inorganic salts removed. It is oxidized with fuels that are carbon compounds in the liquid phase while stirring in the presence of fatty acids. And ammonium or alkali hydroxide metal and to have gas bubbles or cavities included in the resulting water-in-oil emulsion (2) process according to claim (1) in which the mixture of Believe That is such a carbon compound And the fatty acids are combined with aqueous solutions of the oxidized salts, which (3) the process under claim (2) in which the aqueous solution which There is such a hydroxide added to the fuel that is Carbon / fatty acid compounds (4) claim treatment (1) in which the hydroxide is Added to the fuel mixture that is carbon compounds as And said fatty acids And after that add the solution in water Oxidizing agent inorganic salt (5) method according to claim (4) using approximately 0.4 to 6.0, the equivalent weight of such hydroxide is low, the equivalent weight of fatty acids (6 ) Process according to claim (2) in which the said oxidizing salt is an alkali metal. One or more nitrates do not contain ammonium ions and use approximately 0.4 to 0.7 the equivalent weight of such hydroxides. To the equivalent weight of fatty acid (7) method according to claim (1) in which the inorganic salt removed Such oxidation is ammonium nitrate. But alone or in total It was with the alkali metal in the tetrate (8), the claim method (7), which used more than 1 and not more than approximately 12 the equivalent weight of such hydroxide to water. Equivalent weight of fatty acids (9) process according to claim (3) or (4) which mixtures The fire / fatty acid has been heated. To maintain the solution The water must not become solid when added to the mixture (10) process according to claim (9), the temperature of the solution In water of inorganic salts, oxidizing agents and temperature of mixtures Such fuel / fatty acids At least approximately 43 degrees C when adding (11) process according to claim (2) or (4), in which the aqueous solution and the aforementioned fuel / fatty acid mixtures can be considered salt-free, acid-fat. Before the hydroxide is included. The fuel / fatty acid mixtures (12) the process of claim (1) in which the weight of the fatty acid Such is approximately 0.4 to 3.0% of the total weight of (13) Claim process (1) in which the said fatty acid is oleic acid (14) Claim process (1) where such fatty acid is Stearic acid (15) Emulsion explosive mixtures Which contains (a) fuels that are carbon compounds Acts as a appear The continuation of the emulsion (b) an aqueous solution of inorganic salts. It appears discontinuous sectors of the emulsion. Dispersed in Appear such sequences (c) gas bubbles or dispersed cavities. Containing at least approximately 5% of the content of the mixture: (d) ammonium salt or metal acidic acid (e) fatty acid and (f) ammonium or metal alkali hydroxide. Side in excess Than the amount, which is formed by the hydrolysis of salts, acids, fats. (16) Mixtures, explosives, emulsions. Which contains (a) fuels that are carbon compounds Acts as a appear The continuation of the emulsion (b) an aqueous solution of inorganic salts. As discontinuous sectors of the emulsion dispersed in The continuation of the above (c) gas bubbles or dispersed cavities. Containing at least approximately 5% of the content of the mixture: (d) ammonium salt or metal acidic acid (e) fatty acid and (f) ammonium or metal alkali hydroxide. Such compound side It is something which is obtained by combining compound fuels. The carbon with the aqueous solution while stirring in Where there are fatty acids and hydroxides in order to To produce salt, acid, fat during the process (17) compound explosive emulsion. Which contains (a) approximately 1 to 10% by weight of the substance fuel Carbon assembly Acts as a continuation of the emulsion (b) an aqueous solution of amonium nitrate. Or of ammonium nitrate and alkali nitrate metal Acts as a non-sequel appearance The emulsion is dispersed in the sequential appearance of the said nitrate. A single type or several comprise Approximately from 50 to 95% and water 5 to 25% of the weight of the mixture (c) gas bubbles or dispersion cavities. Contains at least 5% of the content of the mixture. (D) ammonium salt. And / or metal alkali oily (e) oleic acid and (f) ammonium and / or alkali hydroxide metal (18) explosive mixture according to the claim. (15) or (17) capable of impregnating at least 3.8 cm of lead after being subjected to a temperature range of approximately -12 ° C to 49 ° C for at least three days. When the ignition is set 425 g of the mixture with 3 g of soil begins, which is Prasarn PETN explosives (19) Explosive mixtures under claim (15) of which fatty acids are saturated mono-carboxylic acids or mono-, do- or tri-ansatsu. ReTed It contains approximately 12 to 22 carbon atoms (20) explosive mixtures pursuant to (19) of which oily acid salts (d) are ammonium oleates and / or alkali metal salts of acid. One or more oleic acid and such fatty acid (f) is oleic acid (21) explosive mixture according to claim (19), which oily acid salt (d) is ammonium stearate. Yarates and / or alkali metal salts of stearic acid. One or more such oily acids (f) are stearic acid (22), explosive mixtures according to claim (15), which are estimated to be from 50 to 95% of the amonium. Nitrate or ammonium nitrate mixture with alkali metal nitrate 5 to 25% water and 1 to 10% carbon bonded fuel (23) Explosive mixture according to claim ( 15) or (17) in which a gas bubble or cavity At least one is obtained from solid Gas-encapsulated partition or cavity (23 claims, 4 faces, 0 photos).