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Global difference method based non-uniform temperature field thermal modal sensitivity analysis method

A sensitivity analysis, non-uniform technology, applied in special data processing applications, instruments, electrical digital data processing, etc., can solve the problems of increasing analysis difficulty and inability to carry out analysis work, reducing calculation time, avoiding complex formula derivation, reducing Effect of Number of Design Variables

Inactive Publication Date: 2018-01-26
SOUTHEAST UNIV
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Problems solved by technology

Although the analysis process is relatively simple, when the parameter range is large and the number is large, the analysis difficulty will increase greatly, and even the analysis work cannot be carried out.

Method used

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  • Global difference method based non-uniform temperature field thermal modal sensitivity analysis method
  • Global difference method based non-uniform temperature field thermal modal sensitivity analysis method
  • Global difference method based non-uniform temperature field thermal modal sensitivity analysis method

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Embodiment Construction

[0038] The technical solution of the present invention will be described in detail below in conjunction with the accompanying drawings.

[0039] Such as figure 1 As shown, the sensitivity analysis method of thermal modal frequency to structural parameters under the non-uniform temperature field based on the global difference method of the present invention comprises the following steps:

[0040] Step 1: Use the intermediate function to characterize the relationship between material parameters that affect the dynamic characteristics of the structure, such as shear modulus, elastic modulus, and thermal expansion coefficient, and temperature, define the intermediate function coefficient as an intermediate variable, and use the intermediate variable as the initial sensitivity calculation parameter

[0041]Linear fitting is performed on the scattered point values ​​of material parameters at various temperature values, and the formed linear fitting function is an intermediate fun...

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Abstract

The invention discloses a global difference method based non-uniform temperature field thermal modal sensitivity analysis method. The method includes: using an intermediate function to represent a relation between a material parameter and a temperature, for affecting a structural dynamic characteristic, defining an intermediate function coefficient as an intermediate variable, and using the intermediate variable as an initial parameter of sensitivity calculation; establishing a structural finite element analysis model, and calculating a thermal modal parameter; acquiring a new material parameter value through a perturbation method, performing structural thermal modal analysis, solving the thermal modal frequency, calculating an approximate derivative of the thermal modal frequency for theinitial parameter according to a difference format of the global difference method, and acquiring the sensitivity. The material parameter associated with the temperature field is fitted into a linearfunction curve, and then sensitivity analysis of the material parameter filed in thermal modal under the non-uniform temperature field is converted into sensitivity analysis of the intermediate function coefficient, and an objective of reducing sensitivity parameters to be analyzed can be achieved. Parameter iteration difference calculation can be achieved on the basis of MATLAB programming, and the calculation efficiency is improved.

Description

technical field [0001] The invention relates to an optimal design method of a thermal conduction and structural coupling system, in particular to a thermal mode sensitivity analysis method under a non-uniform temperature field based on a global difference method. Background technique [0002] The optimal design of heat conduction and structural coupling systems is a common problem in engineering, especially in aviation, aerospace, thermomechanical and other aspects. Moreover, similar problems also exist in manufacturing processes such as thermal processing, heat treatment, and thermoforming. Heat transfer and structural thermal response (such as stress, deformation, vibration) and their coupling effects are important contents of design analysis. Sensitivity analysis is an important content of optimal design, which reflects the derivative information of constraint function and objective function to design variables. In the study of dynamic inverse problems, in order to obta...

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Application Information

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IPC IPC(8): G06F17/50
Inventor 费庆国陈素芳姜东曹芝腑
Owner SOUTHEAST UNIV
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