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A Simulation Method of Electromagnetic Elastic Coupling for Layered Shell of Electromagnetic Material

A technology of layered shells and electromagnetic materials, applied in electrical digital data processing, instruments, calculations, etc., can solve problems that are difficult to solve and cannot reflect the local stress and local electric and magnetic fields at the junction of electromagnetic devices and structures

Inactive Publication Date: 2016-09-07
CHONGQING UNIV
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Problems solved by technology

[0004] From the above analysis, it can be seen that for the analysis of intelligent structures composed of electromagnetic materials, multidisciplinary knowledge such as mathematics, mechanics, electricity and electromagnetism is required, and due to the complexity of the coupling between electricity, magnetism and elastic media, it is difficult to solve the problem. Great difficulties have come, although some beneficial work has been done, there are still many aspects that need to be further improved
For example, most of the existing literatures assume linear or high-order displacements and electric and magnetic potential distributions in simplified models, ignoring or partially ignoring the non-uniformity of local deformation, so they cannot reflect the local stress and local stress at the junction of electromagnetic devices and structures. electricity, magnetic field

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  • A Simulation Method of Electromagnetic Elastic Coupling for Layered Shell of Electromagnetic Material
  • A Simulation Method of Electromagnetic Elastic Coupling for Layered Shell of Electromagnetic Material
  • A Simulation Method of Electromagnetic Elastic Coupling for Layered Shell of Electromagnetic Material

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Embodiment Construction

[0048] Such as figure 2 , 3 The three-layer electromagnetic material housing shown ( figure 2 The middle triangle mark is provided with a fixed support, and the circular mark is provided with a movable support). The middle surface of the shell is taken as the reference surface, The axes are the curved direction, the length direction and the thickness direction along the reference surface of the shell. The initial curvature of the shaft is These are the thickness, radius of curvature and length of the shell. The process of the electromagnetic-elastic coupling simulation method for the electromagnetic material layered shell is as follows figure 1 Shown.

[0049] 1. Three-dimensional energy equation.

[0050] Because the operation symbols are more complicated, first make the following expression: subscript Is the Lame parameter related to the two-dimensional shell surface basis vector, Represents the definite integral along the thickness of the shell, Represents the physical ...

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Abstract

The invention provides an analogue simulation method for electromagnetic elastic coupling of a layering shell made of electromagnetic materials. A three-dimensional energy equation including the electricity-magnetism-elastic coupling effect is established based on the Hamilton extension principle; three-dimensional energy is asymptotically extended into serial two-dimensional recursion energy based on the variation asymptotic method, a leading variation item in the two-dimensional recursion energy is corrected asymptotically through inherent small parameters of the shell, and therefore a correction model close to the original three-dimensional energy as much as possible is obtained and is converted into the Reissner-Mindlin model form commonly used in the engineering; a three-dimensional variation reconstruction relation is inferred based on the obtained two-dimensional overall response and all levels of warping functions. The apriority hypothesis is not needed in the model, the structural electromagnetic elastic coupling performance under the function of various fields can be accurately predicted, the calculated amount is small, calculating efficiency is higher than that of the high-order set theory and the three-dimensional finite element solution, and the number of resources occupied in a computer is small.

Description

Technical field [0001] The invention relates to the field of material mechanical performance analysis, in particular to a simulation model of the electromagnetic-elastic coupling performance of an electromagnetic material layered shell based on the variational asymptotic method, which can effectively predict the electrical-magnetic-elastic coupling performance of a structure under multi-field action . Background technique [0002] The intelligent composite material composed of piezoelectric phase and piezomagnetic phase will produce a magnetoelectric coupling effect that single-phase piezoelectric and piezomagnetic materials do not have. Using this characteristic, the shortcomings of small bandwidth and small actuation of piezoelectric and piezomagnetic single-phase materials can be improved, so they are widely used in aviation, automotive, electronics, civil engineering, medicine and other fields. [0003] Van Suchtelen proposed in 1972 that the combination of piezoelectric and p...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06F17/50
Inventor 钟轶峰周小平张亮亮杨文文刘国天矫立超
Owner CHONGQING UNIV
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