TH1509B - Components of a viscous explosive - Google Patents

Abstract

The use of hydrocolloids to increase the viscosity of the explosive membranes is gelatinized to maintain its thermal state. The ionic physiology of more than one valence metal, whereby these ions form attachment arms between the atoms of their molecules. hydrocolloid Activation of membrane sensitivity can be done in a number of ways, namely: a. using explosive agents b. using combustible metal substances or fine powders of other light metals c. using other combustible compounds d. by either inserting a low-density substance into the blasting membrane (physical compression) or adding a substance that reacts to produce a gas which will be encased in the mass of the explosive membrane (Chemical air compression) or high melting point substances. and very dense Enough to reach the explosion in the explosion mechanism E. using salts of hydrocarbons. or add substance from toluene nitrate In general, the aforementioned methods are often used in combination with put together to give the blast membrane the desired sensitivity.

Claims (8)

1. Components of the first class explosives These include inorganic oxides of salts, water, fuel receptacles, thickening agents and cross-bonding agents. And selpies with gas bubbles where they are stored in the emulsion. 2. Components as in claim 1, where the emulsion is It is said to be simple, double, or triple. 3. Components, as in any of the above claims, that contain up to 12 pre-polymers that form gas-covered cells within the mass of the explosive. 4. Components, as in any of the claims, are the origin where cells of gas encased within an explosive mass are caused by Reaction of gas-generating compounds in stochiometric quantities and at rates controlled by PH and system urethra. 5. Components as in claim 4, where the gas-generating compound is sodium nitrite. Which decays with thiourea And Ferrid Nydate is also present. 6. Composition, as in claim 1, where the thickener is the tyrant and where it is cross-bonded by the reaction. Of ferrid nitrate 7. The component preparation process, as in any of the above claims, consists of the following steps: a. Preparation of an oxidizing solution (Uxidising solution) with a viscosity between 500 and 10,000 cp maintained. At a temperature at Higher than the crystallization point of such oxidizing salts and at pH in the range 4.0 to 5.2 b. Preparation of mixtures of reducing reducing solids c. Preparation of combustion solutions in In liquefied conditions, a sensitivity regulator may be selected. D. Gas-generating agents. And cross-bonding aids e. The introduction of the components prepared in Article A in a ratio of 25% to 90%. The components prepared in Section B at the ratio of 3% to 25%. The ratio between 0% and 35% and the components prepared in Clause D in the ratio of 0% to 1% as a percentage by weight. Come together in such a way that the final mix shows the balance of Total oxygen is between -10% and + 10% f. Mixing until the above components are homogeneous. Completely single 8. The movement as in claim 7, which is a continuous movement. Where the reaction zone is continuously fed by the components prepared in steps A, B, C and D. And the necessary ingredients were born Continuing as well (8 claims, 2 pages, 0 pictures)