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Method used for identidying material anisotropic plasticity parameters based on spherical impression morphology

An anisotropic and plastic parameter technology, applied in the direction of testing material hardness, etc., can solve the problem of the influence of sheet metal precision plastic forming, achieve accurate and reliable experimental results, realize the performance detection of small-sized test pieces, and the effect of simple experimental process

Active Publication Date: 2018-06-08
NORTHWESTERN POLYTECHNICAL UNIV
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Problems solved by technology

Moreover, the existence of plastic anisotropy usually leads to a certain preferred orientation of the sheet metal during the plastic forming process, which has a great influence on the precision plastic forming of the sheet metal.
Although some scholars have established some methods using indentation test to obtain the elastic-plastic mechanical properties of metal materials, these studies mostly focus on isotropic materials.

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  • Method used for identidying material anisotropic plasticity parameters based on spherical impression morphology
  • Method used for identidying material anisotropic plasticity parameters based on spherical impression morphology
  • Method used for identidying material anisotropic plasticity parameters based on spherical impression morphology

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Embodiment Construction

[0026] This embodiment is a method for identifying anisotropic plastic parameters of materials based on spherical indentation morphology.

[0027] refer to Figure 1 to Figure 5 , the specific implementation will be described below in conjunction with the selected silicon carbide fiber reinforced aluminum alloy SiC / Al6061 material as an engineering application example.

[0028] The first step is to conduct spherical indentation experiments on SiC / Al materials, and obtain snapshots of the indentation morphology along the two directions of horizontal grains and vertical grains through confocal microscope testing with Decompose these two snapshot vectors into an average amount and the difference △S exp two parts. Computing Experimental Weighted Profile Snapshots and the weight factor λ 1 and lambda 2 The values ​​are all 1. Table 1 shows the uniaxial compression performance parameters of SiC / Al materials.

[0029] Table 1 Uniaxial mechanical properties parameters of ...

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Abstract

The invention discloses a method used for identidying material anisotropic plasticity parameters based on spherical impression morphology. According to the method, a spherical impression equipment isadopted for indentation test of a test piece so as to obtain impression morphology response information left on test piece surface; orthogonal decomposition and parametric approximation are adopted soas to obtain a value model used for representing the relationship of the material anisotropic plasticity mechanical property parameters with the impression morphology response information, reverse derivation constraint optimization problem is adopted so as to obtain the anisotropic plasticity mechanical property parameters of the material to be test through reverse derivation. In applications, the spherical impression morphology information obtained in the indentation experiment is input into the value model, and the anisotropic plasticity mechanical property parameters of the material to betest are obtained through certain steps of calculation. The method can be used in anisotropic material small size sample detection, nondestructive test, and material in-suit test, and the accuracy ofmaterial anisotropic plasticity parameters obtained via reverse derivation using the method is high.

Description

technical field [0001] The invention belongs to the technical field of elastic-plastic mechanical performance testing of materials, and in particular relates to a method for inverting the anisotropic plastic mechanical performance parameters of a metal material to be tested by using indentation shape information acquired in a spherical indentation experiment. Background technique [0002] The use of indentation test technology to obtain the elastic-plastic mechanical properties of sheet metal materials has some advantages that traditional uniaxial tension / compression tests do not have. On the one hand, the specimen preparation period of the indentation test method is short, the experimental process is simple, and the experimental results are reliable. On the other hand, this test technology can be applied to the field of material mechanical performance testing that is inconvenient or impossible to apply to traditional uniaxial tension / compression tests, such as non-destructi...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N3/42
CPCG01N3/42
Inventor 吴建军王明智张增坤郭瑞超惠钰樊赫
Owner NORTHWESTERN POLYTECHNICAL UNIV
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