Back analysis identification method for parameters of dynamic re-crystallizing model

A technology of model parameters and identification methods, applied in biological neural network models, electrical digital data processing, special data processing applications, etc., can solve problems such as unbalanced learning samples, instabilities in the reverse analysis and solution process, and large amount of calculations. Achieve the effect of solving instability, overcoming arbitrariness, and accurately solving

Inactive Publication Date: 2012-02-01
SHENZHEN UNIV +1
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Problems solved by technology

[0004] The present invention is based on orthogonal experiment, genetic algorithm, BP neural network and finite element numerical simulation technology to optimize and calculate the model parameters of dynamic recrystallization cellular automata of

Method used

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  • Back analysis identification method for parameters of dynamic re-crystallizing model
  • Back analysis identification method for parameters of dynamic re-crystallizing model
  • Back analysis identification method for parameters of dynamic re-crystallizing model

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Embodiment Construction

[0035] The present invention will be described below in combination with specific embodiments and with reference to the accompanying drawings.

[0036] a kind of like Figure 1~2 The shown dynamic recrystallization model parameter back analysis identification method based on the genetic neural network cellular automaton is used for back analysis and identification of the specific dynamic recrystallization model parameters when the cylinder of the AZ31 magnesium alloy sample (hereinafter referred to as the sample) is thermally compressed and deformed. Proceed as follows:

[0037] 1) Determine the value range of the parameters, design and construct the experimental plan

[0038] According to the actual problem, the value range of the model parameters of dynamic recrystallization cellular automata of the sample material is determined. There are 4 model parameters, and the value range is:

[0039] Initial dislocation density ρ cr ∈{1.2809×10 14 , 1.4976×10 14}m -2 ;

[0040...

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Abstract

The invention discloses a back analysis identification method for parameters of a dynamic re-crystallizing model. Based on a genetic neural network cellular automatic machine, the method is characterized in that the method comprises the following steps of: 1) confirming a value range of parameters and designing and establishing a test scheme; 2) performing analog computation and establishing a learning sample library; 3) establishing a BP (Back Propagation) neural network; 4) training the BP neural network and establishing a nonlinear mapping relation; 5) randomly selecting at least one set of parameters and forecasting a flow stress; 6) comparing a precast value with a really measured value till an error meets a design demand; and 7) storing an optimum parameter value with the error meeting the design demand. Haphazardry of a dynamic re-crystallizing parameter value is overcome; the dynamic re-crystallizing parameter value is calculated by utilizing an orthogonal test, a genetic algorithm, a neural network and numerical simulation optimization; the problems of instability, strong nonlinearity, large calculating quantity and uneven learning sample during a back analysis optimizingcalculation are solved; and the accuracy and the rapidity of re-crystallizing parameter value are obviously promoted.

Description

technical field [0001] The invention relates to a parameter back-analysis identification technology for material dynamic recrystallization microscopic simulation, in particular to a dynamic recrystallization model parameter back-analysis identification method based on genetic neural network cellular automata. Background technique [0002] Dynamic recrystallization behavior is an important mechanism to improve the microstructure and properties of materials during thermal deformation. Quantitatively studying the physical metallurgical principles of the dynamic recrystallization process and forming a numerical method for predicting the dynamic recrystallization process are of great significance for controlling the microstructure evolution of materials and obtaining good mechanical properties. However, the current method of using cellular automata to simulate the dynamic recrystallization process is to randomly select the parameters of the cellular automata model, and only by re...

Claims

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Application Information

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IPC IPC(8): G06F17/50G06N3/02
Inventor 娄燕李落星彭怀伟吴文华
Owner SHENZHEN UNIV
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