94results about How to "Low impact sensitivity" patented technology

The invention relates to a fine-particle high-energy low-sensitivity explosive compound and a preparation method thereof. The method comprises the following steps: mixing an explosive with a macromolecular bonder according to a weight part ratio of 100 to (2-5), and stirring at 40-60 DEG C for dissolving in an organic solvent to obtain an explosive compound solution with 5%-30% by weight of explosives; putting the explosive compound solution into an ejection tank, pumping air into the ejection tank to increase the pressure in the ejection tank to be 0.3-0.7MPa, ejecting the explosive compound solution into an explosive antisolvent with the temperature of -10 DEG C to 10 DEG C, performing centrifugal separation on a solid product, washing, and drying to obtain the explosive compound. According to the explosive compound, explosive particles are micron-sized, the CL-20 surface is densely wrapped with the macromolecular bonder in the form of an interwoven mesh shape, the impact sensitivity of the wrapped CL-20 is reduced to be 24%-40% from 100%, and the friction sensitivity is reduced to be 66%-92% from 100%.

The invention relates to a calcium sulfate composite oxidant for fireworks and crackers and a preparation method thereof, belonging to the technical field of chemical raw materials of the industry of the fireworks and crackers. The oxidant takes calcium sulfate and iron oxide as a main body assisted by barium nitrate, takes potassium permanganate and potassium perchlorate as initiators, and is added a small amount of an active agent. The preparation method comprises the following steps: roasting gypsum (calcium sulfate dihydrate), smashing, adding a mixed powder body of potassium permanganate and potassium perchlorate, grinding, smashing iron oxide, adding the active agent into the iron oxide powder, and then adding barium nitrate and grinding; and uniformly mixing the two types of ground powder. One of main raw materials of the invention is calcium sulfate which is non-toxic and has low price, and after being roasted the calcium sulfate, the calcium sulfate is not only an oxidant but also a moisture-proof agent and a leavening agent and also is a mechanical sensitivity buffer which is fine and smooth and slippery. Since the composite oxidant of the invention is prepared into the fireworks and crackers according to the traditional method, the fireworks and crackers has the advantages that the burning property is good, the safety is strong, the friction sensitivity and impact sensitivity are zero, and the production cost is greatly reduced.

The invention discloses a preparation method of HMX coated with GO (graphene oxide) through electrostatic self-assembly. The preparation method comprises steps as follows: cleaned HMX is taken and added to n-hexane or toluene, an amino silane coupling agent is dropwise added, the mixture is stirred for reflux at the temperature of 75-120 DEG C for 8-12 h, then, cleaning is performed with ethanol, thermal treatment is performed at the temperature of 75-80 DEG C for 6-8 h, and amino-modified HMX is obtained; an HMX solution and a GO solution are mixed and stirred until GO is completely separated out, then, filtration, washing and drying are performed, and the HMX coated with GO through electrostatic self-assembly is obtained. The friction sensitivity and the collision sensitivity of the coated HMX are both reduced.

The invention discloses an organic carbon powder explosive reducing agent, which is prepared from the following ingredients in parts by weight: 28 to 32 parts of terephthalic acid, 8 to 12 parts of ammonium benzoate, 8 to 12 parts of calcium benzoate, 38 to 42 parts of hydrogen potassium terephthalate and 8 to 12 parts of simple substance carbon. The reducing agent provided by the invention has the advantages of safety, stability and environment protection.

The invention provides propellant powder and a preparation method. The propellant powder comprises 30-50 parts of potassium permanganate, 8-20 parts of a binding agent, 10-20 parts of potassium hydrogen phthalate and 20-40 parts of a combustible agent, wherein the combustible agent is a mixture of nitrocotton and charcoal powder. The propellant powder has low friction sensitivity and impact sensitivity, low moisture absorption rate and strong thrust and meanwhile reduces the environmental pollution.

The invention relates to a method which uses microwaves to dry explosive. The method is that an undried finished detonator with 5 to 20 percent of water content is equally laid onto a drying plate, and the material thickness is 15 to 30mm, then the detonator is put into a microwave to carry out microwave drying in a condition with the vacuum degree of 0.080 to 0.085 MPa and the microwave power of 500 to 5000W. The drying method of the invention is suitable for drying RDX, HMX, PETN, NQ and TNT, etc. various single compound explosives. The complete drying time of the explosive is between 1000 and 2000s, which is far less than a normal static plate drying method by 7 to 8 hours, and the water content of the explosive is less than 0.01 percent after being dried.

The invention relates to HMX-based boraxal-containing explosive. The explosive is prepared from the following various ingredients in percentage by patent: 60-68% of HMX, 15-25% of B-A1 composite powder and 14-18% of bonding agent, wherein the mass ratio of powder B to powder Al in the B-A1 composite powder is 1:1. The explosive can be used as the main charge of high-strength and high-security ammunition.

The invention discloses a Hexogen explosive crystal and a preparation method thereof. The preparation method comprises the following steps: (A) performing ball milling on the Hexogen explosive to obtain fine particle powder; (B) heating the obtained fine particle explosive powder in a dye solution, and finishing a self-assembly reaction by taking dye molecules as a template agent to obtain the Hexogen explosive crystal with specific morphology. The Hexogen explosive crystal prepared by the method has uniform morphology, all particles are of a special cross-morphology structure, and the explosive has a color while the impact sensitivity is obviously reduced in comparison with a common Hexogen explosive; the preparation method disclosed by the invention has a simple technological process, the yield reaches 95% or more, and expanded preparation is easy to implement; the obtained Hexogen explosive crystal product has an important application value in the fields such as primary explosive and micro-component charging.

The invention discloses a low-sensitivity and high-strength octogen-based composite material and a preparation method thereof. The preparation method comprises the following steps: (1) adding octogeninto a certain solvent, performing uniform dispersing, performing in situ coating with a passivation material, and carrying out suction filtration, washing and drying to obtain an octogen@passivationmaterial core-shell structured explosive particles; (2) adding the octogen@passivation material core-shell structured explosive particles to an aqueous Tris solution with a pH value of 8.5, performingmechanic stirring, adding dopamine hydrochloride, and carrying out in-situ polymerization coating, suction filtration, washing and drying to obtain octogen@passivation material@polydopamine one-coredouble-shell structured explosive particles with the passivation material as the inner shell and an interface modifier polydopamine as an outer shell; and (3) adding the one-core double-shell structured explosive particles to water, performing mechanic stirring to achieve uniform dispersing, adding a polymer binder solution, and carrying out vacuum treatment, suction filtration, washing and dryingto obtain the low-sensitivity and high-strength octogen-based composite material.

A method for phlegmatising an explosive in an aqueous suspension including a dispersed phlegmatising agent. The phlegmatising agent is deposited on a surface of the explosive at low temperature utilizing opposite electric charges of the phlegmatising agent and the explosive. Also a device and a phlegmatised explosive.

The present invention discloses a preparation method for a hexanitrohexaazaisowurtzitane and naphthoquinone co-crystallized explosive, wherein a crystallization solvent is adopted to prepare a hexanitrohexaazaisowurtzitane and naphthoquinone saturated solution, the saturated solution is placed into a beaker to evaporate the solvent in a constant temperature incubator, and crystallization is performed to obtain the hexanitrohexaazaisowurtzitane and naphthoquinone co-crystallized explosive. According to the present invention, high sensitivity CL-20 and NBQ form co-crystal through intermolecular interactions so as to significantly reduce impact sensitivity of the pure component CL-20, and substantially increase safety performance; and the intermolecular interaction law of co-crystal molecules is further understood, and the obtained effective synthon can be provided for guiding co-crystal design.

The invention belongs to the technical field of composite material preparation, and discloses an HMX explosive microsphere containing a cross-linked fluorine polymer coating layer and a preparation method of the HMX explosive microsphere. The HMX explosive microsphere containing the cross-linked fluorine polymer coating layer is of a structure with fine-grained HMX particles as a core and a cross-linked fluorine polymer as a shell. The average particle size of the HMX explosive microsphere containing the cross-linked fluorine polymer coating layer is 100 [mu]m-500 [mu]m, wherein the average particle size of the fine-grained HMX particles is 500 nm to 50 [mu]m, the cross-linked fluorine polymer coating layer accounts for 5%-15% of the HMX explosive microsphere containing the cross-linked fluorine polymer coating layer in percentage by mass, the impact sensitivity characteristic drop height of the HMX explosive microsphere containing the cross-linked fluorine polymer coating layer is 52.8-87.9 cm, and the friction sensitivity of the HMX explosive microsphere containing the cross-linked fluorine polymer coating layer is 12-48%. The preparation method disclosed by the invention integrates an emulsifying solvent evaporation coating technology and an in-situ polymerization coating technology.

The invention relates to a preparation method of perdeuterated CL-20, and belongs to a synthesis technology of a deuterated energetic material. According to the method, deuterated N,N'-di-tert-butyl ethane-1,2-diimine and deuterated benzylamine are used as raw materials, deuterated acetic acid is used as a catalyst to synthesize an intermediate product that is deuterated hexabenzyl hexaazaisowurtzitane. Compared with a traditional method, the yield of the deuterated hexabenzyl hexaazaisowurtzitane is obviously increased; by adopting the deuterated hexaacetyl hexaazaisowurtzitane as a nitrification precursor for nitrification, the product does not contain impurities such as pentanitromonoformyl hexaazaisowurtzitane, and the obtained deuterated CL-20 is high in purity. Compared with common CL-20, the prepared perdeuterated CL-20 has better detonation performance and improved safety and better facilitates practical application.