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HOW QUICK START BACKUP POWER SUPPLY pyrotechnic and fireworks GENERATOR FOR IMPLEMENTATION
HOW QUICK START BACKUP POWER SUPPLY pyrotechnic and fireworks GENERATOR FOR IMPLEMENTATION
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机译:如何快速启动备用烟火和烟花发生器以实现
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摘要
1.a quick way to launch the pyrotechnic reserve source of current, comprising a u0441u0435u0431u00a0 warm-up of u044du043bu0435u043au0442u0440u043eu043bu0438u0442u043du043eu0433u043e materials to his mobile u0441u043eu0441u0442u043eu00a0u043du0438u00a0 followed by filling them u00a0u0447u0435u0439u043au0438 galvanic separator u0434u043bu00a0 activation u00a0u0447u0435u0439u043au0438 zinc anode, electrolyte, cathode, u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0, preheat electric u043bu0438u0442u043du043eu0433u043e material u043du0430u0445u043eu0434u00a0u0449u0435u0433u043eu0441u00a0 in closed chamberchannels provided with separator u043eu0441u0443u0449u0435u0441u0442u0432u043bu00a0u044eu0442 by pyrotechnic u043du0430u0433u0440u0435u0432u0430u0442u0435u043bu00a0 or external heat source to u043fu0440u0435u0432u0440u0430u0449u0435u043du0438u00a0 u044du043bu0435u043au0442u0440u043eu043bu0438u0442u043du043eu0433u043e material in u0438u0434u043au043eu043fu0430u0440u043eu0433u0430u0437u043eu0432u043eu0435 u0438u043eu043du043du043eu043fu0440u043eu0432u043eu0434u00a0u0449u0435u0435 u0441u043eu0441u0442u043eu00a0u043du0438u0435 with hypertension, u0434u043bu00a0 u0437u0430u043fu043eu043bu043du0435u043du0438u00a0 them separator.;2. method for u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0 1, so that the pressure in the closed chamber formed by u0438u0437u043cu0435u043du0435u043du0438u00a0 u0430u0433u0440u0435u0433u0430u0442u043du043eu0433u043e or chemical u0441u043eu0441u0442u043eu00a0u043du0438u00a0 u044du043bu0435u043au0442u0440u043eu043bu0438u0442u043du043eu0433u043e mater u0438u0430u043bu0430 when heated.;3. method for u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0 1 or 2, so that under the action of heat, electrolyte material can u0438u0441u043fu0430u0440u00a0u0442u044cu0441u00a0, boil, roast, to respond, u0440u0430u0437u043bu0430u0433u0430u0442u044cu0441u00a0, u0432u0437u0440u044bu0432u0430u0442u044cu0441u00a0.;4. method for u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0 1, so that under the action of heat, electrolyte material u043fu0435u0440u0435u0432u043eu0434u00a0u0442 in u0436u0438u0434u043au043eu043fu0430u0440u043eu0433u0430u0437u043eu0432u043eu0435 u0441u043eu0441u0442u043eu00a0u043du0438u0435 with acidic or basic properties.;5. method for u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0 paragraph 4, so that u0436u0438u0434u043au043eu043fu0430u0440u043eu0433u0430u0437u043eu0432u043eu043c u0441u043eu0441u0442u043eu00a0u043du0438u0438 electrolyte material contains from 3 to 97 weight% of u0438u043eu043du043eu043fu0440u043eu0432u043eu0434u00a0u0449u0435u0439 phases and from 97 to 3 weight% of an inert phase.;6. method for u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0 clause 5, so that the u0438u043eu043du043eu043fu0440u043eu0432u043eu0434u00a0u0449u0430u00a0 phase u044du043bu0435u043au0442u0440u043eu043bu0438u0442u043du043eu0433u043e material in u0436u0438u0434u043au043eu043fu0430u0440u043eu0433u0430u0437u043eu0432u043eu043c u0441u043eu0441u0442u043eu00a0u043du0438u0438 consists of equal numbers of u0437u0430u0440u00a0u0434u043eu0432 cations and and u043du0438u043eu043du043eu0432 formed from the elements of composing an electrolyte material.;7. method for u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0 clause 5, so that the u0438u043eu043du043eu043fu0440u043eu0432u043eu0434u00a0u0449u0430u00a0 phase u044du043bu0435u043au0442u0440u043eu043bu0438u0442u043du043eu0433u043e material in u0436u0438u0434u043au043eu043fu0430u0440u043eu0433u0430u0437u043eu0432u043eu043c u0441u043eu0441u0442u043eu00a0u043du0438u0438 contains u043au0430u0442u0438u043eu043du044b hydrogen u043bu0438u0442u0438u00a0, u043du0430u0442u0440u0438u00a0, u043au0430u043bu044cu0446u0438u00a0 to u0430u043bu0438u00a0, silver, iron, u043du0438u043au0435u043bu00a0, u043cu0430u0433u043du0438u00a0, zinc, u0441u0442u0440u043eu043du0446u0438u00a0, u043au0430u0434u043cu0438u00a0, u0431u0430u0440u0438u00a0, bromine, u0446u0438u0440u043au043eu043du0438u00a0, lead, manganese, u0430u043cu043cu043eu043du0438u00a0, hydrazine, or their mixture.;8. method for u043eu0442u043bu0438u0447u0430u044eu0449u0438u0439u0441u00a0 clause 5, so that the u0438u043eu043du043eu043fu0440u043eu0432u043eu0434u00a0u0449u0430u00a0 phase u044du043bu0435u043au0442u0440u043eu043bu0438u0442u043du043eu0433u043e material in u0436u0438u0434u043au043eu043fu0430u0440u043eu0433u0430u0437u043eu0432u043eu043c u0441u043eu0441u0442u043eu00a0u043du0438u0438 contains anions of bromine, chlorine, fluorine, sulphur oxide. s, phosphorus oxide, carbon monoxide, hydrogen, chlorine, nitric oxide, nitric oxide, boron oxide, oxide of carbon dioxide, tungsten oxide, chloride u0430u043bu044eu043cu0438u043du0438u00a0, hydrogen fluoride, oxide of nitrogen then, boron fluoride or their mixture.
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