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Optimization Method of Solid Propellant Formula Based on Genetic Algorithm and Energy Characteristic Graph

A technology of solid propellant and energy characteristics, which can be used in computing, genetic modeling, special data processing applications, etc., and can solve the problems of high energy characteristics test cost, long cycle, and large test volume.

Active Publication Date: 2015-12-23
XIAN MODERN CHEM RES INST
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Problems solved by technology

[0003] The technical problem to be solved by the present invention is to provide a solid propellant formula optimization method based on genetic algorithm and energy characteristic graph in view of the deficiencies in the above-mentioned prior art. The method has simple steps, reasonable design, convenient implementation and good use effect. It can effectively solve the defects in the existing solid propellant formula design process, such as high cost, long cycle and large test volume of energy characteristics test

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  • Optimization Method of Solid Propellant Formula Based on Genetic Algorithm and Energy Characteristic Graph
  • Optimization Method of Solid Propellant Formula Based on Genetic Algorithm and Energy Characteristic Graph
  • Optimization Method of Solid Propellant Formula Based on Genetic Algorithm and Energy Characteristic Graph

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Embodiment Construction

[0074] Such as figure 1 A solid propellant formulation optimization method based on genetic algorithm and energy characteristic graph shown here includes the following steps:

[0075] Step 1: Modeling: According to the principle of minimum free energy (ie the principle of minimum Gibbs free energy), four energy characteristic calculation models of solid propellants are established; among them, the four energy characteristic calculation models are based on the solid propellant. The specific impulse, characteristic velocity, combustion chamber temperature, and average relative molecular mass of combustion products of the solid propellant are calculated using the specific impulse calculation model, characteristic velocity calculation model, combustion chamber temperature calculation model, and combustion product average. Relative molecular mass calculation model.

[0076] Step 2. Initial parameter setting and storage: First, input the number of components N and the component informat...

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Abstract

The invention discloses a solid propellant formula optimization method based on a genetic algorithm and an energy feature graph. The solid propellant formula optimization method based on the genetic algorithm and the energy feature graph includes a first step of modeling, namely, establishing four energy feature calculation models according to a minimum free energy principle; a second step of setting and storing initial parameters; a third step of utilizing the genetic algorithm to implement formula optimization design; a fourth step of setting a value range used for graphic plotting and calculating mass contents of various kinds of raw material; and a fifth step of drawing the energy feature graph. The drawing process includes the steps of energy feature parameter inputting, energy feature curvilinear equation fitting, energy feature graph drawing, and synchronous energy feature graph displaying. The method is simple in step, reasonable in design, convenient to achieve and good in use effect, combines the genetic algorithm and the energy feature graph to carry out the solid propellant formula optimization design, and overcomes the defects that the energy feature experimental cost is high, the period is long and the experimental quantity is large and the like in an existing solid propellant formula optimization design process.

Description

Technical field [0001] The invention belongs to the technical field of solid propellant formula optimization design, and in particular relates to a solid propellant formula optimization method based on genetic algorithms and energy characteristic graphs. Background technique [0002] With the development of national defense (aerospace, weapons, etc.) technology, the requirements for propellants are becoming more and more stringent, requiring high energy and excellent performance. As we all know, under the condition of maintaining the basic properties of the propellant, the higher the energy of the propellant, the longer the range. For example, the specific impulse of the propellant used in the ICBM intercontinental missile (9260 km) increases by 1%, and the range increases by 7.3% (676 km); when the specific impulse of the propellant increases by 5%, the range increases by 45% (4167 km). . The original intercontinental missile with a range of 9,260 kilometers, as long as the im...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F17/50G06N3/12
Inventor 徐司雨田德余赵凤起李猛赵宏安张晓宏王国强
Owner XIAN MODERN CHEM RES INST
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