Method for determining material parameters of crystal plasticity finite element model

A technology of crystal plasticity and material parameters, applied in computer material science, electrical digital data processing, special data processing applications, etc., can solve problems such as low precision, many iterations, and poor convergence

Pending Publication Date: 2021-04-13
CENT SOUTH UNIV
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Problems solved by technology

[0004] The object of the present invention is to provide a method for determining the material parameters of the crystal plastic finite element model, the method obtains accurate crystal plastic finite element material parameters through the depth confidence neural network model, an...

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  • Method for determining material parameters of crystal plasticity finite element model
  • Method for determining material parameters of crystal plasticity finite element model
  • Method for determining material parameters of crystal plasticity finite element model

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Embodiment Construction

[0019] The present invention will be described in detail below in conjunction with the accompanying drawings and specific implementation examples.

[0020] The present invention is a kind of method that can obtain crystal plasticity finite element material parameter rapidly, below in conjunction with the establishment process of the crystal plasticity finite element model of TC18 titanium alloy as an example, introduces the specific implementation details of the present invention in detail, and its method comprises:

[0021] Step 1: Set different material parameter combinations A, material parameter combination A is shown in Table 1, perform crystal plastic finite element calculations, and obtain true stress and true strain under different parameters; the crystal plastic finite element model described in this step is the only Phenomenological power-law model:

[0022]

[0023] In the formula: is the shear strain rate of the αth slip system, is the reference shear strain...

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Abstract

The invention discloses a method for determining material parameters of a crystal plasticity finite element model. The method comprises the following steps: (1) setting different material parameter combinations A; (2) performing crystal plasticity finite element calculation by adopting the parameter combination A to obtain true stress and true strain under different parameters; (3) establishing a deep belief neural network model by taking the parameter combination A as input and taking the true stress and true strain obtained in the step (2) as output; (4) selecting an additional material parameter combination B, calculating a crystal plasticity finite element and a deep belief neural network model to obtain true stress and true strain of different models, comparing the true stress and true strain, and verifying the accuracy of the deep belief neural network model; and (5) setting a plurality of groups of material parameter combinations C, carrying out deep belief network model calculation, comparing the calculated true stress true strain with a test value, and if the error is greater than a set value, continuing to modify the material parameter combinations C until the error is less than the set value, wherein the parameter combinations C are the material parameters of the crystal plasticity finite element model.

Description

Technical field: [0001] The invention belongs to the technical field of metal material processing engineering and relates to a method for determining material parameters of a crystal plastic finite element model. Background technique: [0002] High-strength titanium alloy has the advantages of high specific strength, good impact toughness, strong fatigue resistance and corrosion resistance, and is widely used to manufacture key structural parts such as aircraft landing gear and aeroengine blades. Through thermal deformation, the β phase is refined due to dynamic recrystallization, and then a fine and uniform structure can be obtained, which is conducive to improving the mechanical properties of the material. However, due to the different orientations of the β-phase in titanium alloys, the material will undergo inhomogeneous deformation and inhomogeneous recrystallization. [0003] Crystal plastic finite element is an important method to simulate the inhomogeneous deformatio...

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Application Information

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IPC IPC(8): G06F30/23G06F30/27G16C60/00G06F119/14
CPCG16C60/00G06F30/23G06F30/27G06F2119/14
Inventor 蔺永诚姜玉强王冠强
Owner CENT SOUTH UNIV
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