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BESO topological optimization method based on dynamic evolution rate and adaptive grid and application of BESO topological optimization method

An adaptive mesh and topology optimization technology, applied in the direction of constraint-based CAD, multi-objective optimization, design optimization/simulation, etc., can solve problems such as the inability to guarantee calculation accuracy, and achieve stable convergence, high calculation accuracy, and reduced calculation. amount of effect

Active Publication Date: 2020-10-02
GUANGZHOU UNIVERSITY
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Problems solved by technology

BESO topology optimization is an evolutionary topology optimization technology based on iterative operations. In each iterative step, finite element analysis of the structural form of the current iterative step is required. Therefore, topology optimization requires multiple structural finite element calculations. How many optimization iteration steps are needed, how many finite element structure calculations need to be performed, there is a certain amount of calculation time and calculation
[0003] For a topology optimization design domain, the calculation amount of a single finite element is closely related to the grid density. For a two-dimensional structure, doubling the grid density per unit length means that the number of grids in the entire calculation domain increases to the original 4 For a three-dimensional structure, doubling the grid density per unit length means that the number of grids in the entire computational domain increases to 8 times, but the optimal design itself theoretically needs to subdivide the grid as much as possible to approximate Continuum, although an overly coarse grid can save calculation time, it cannot guarantee calculation accuracy

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  • BESO topological optimization method based on dynamic evolution rate and adaptive grid and application of BESO topological optimization method
  • BESO topological optimization method based on dynamic evolution rate and adaptive grid and application of BESO topological optimization method
  • BESO topological optimization method based on dynamic evolution rate and adaptive grid and application of BESO topological optimization method

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Embodiment

[0041] Such as figure 1 As shown, the present embodiment provides a BESO topology optimization method based on a dynamic evolution rate and an adaptive grid, and the method includes the following steps:

[0042] Step S1: For the basic structure that needs topology optimization, establish a finite element model, define the design domain, load, boundary conditions and grid size;

[0043] Step S2: Determine the constraint value and other necessary parameters of the BESO method,

[0044] Such as: displacement limit d * , generally the upper limit, that is, the displacement of a certain point after the structure is stressed d≤d * ;The first-order natural frequency limit ω of the structure * , which can be either an upper limit or a lower limit; the filtering radius r used for sensitivity filtering min , after directly calculating the sensitivity of a certain unit, the final sensitivity is obtained from the weighted average of the unit sensitivities within a certain range around...

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Abstract

The invention discloses a BESO topological optimization method based on a dynamic evolution rate and an adaptive grid and application thereof, and the method comprises the steps: building a finite element model for a to-be-topologically optimized basic structure, and defining a design domain, a load, a boundary condition and a grid size; determining a constraint value and BESO necessary parameters; performing finite element analysis on the structure after mesh division, and calculating unit sensitivity under a target function and a constraint condition; filtering the unit sensitivity and updating the constrained Lagrange multiplier, and constructing the sensitivity of a Lagrange function; determining an evolution rate of the current iterative step based on a dynamic evolution rate functionof a Logistic function according to the volume rate of the current iterative step; and updating a design variable according to a set constraint function, judging whether constraint conditions and convergence conditions are met or not, if not, performing grid adaptive updating, then performing unit updating, and stopping iteration until the constraint conditions and the convergence conditions aremet. According to the invention, the calculation amount of single finite element analysis and the number of iterations required by topological optimization are effectively reduced while high calculation precision is ensured, so that the total calculation time consumption of topological optimization is greatly reduced.

Description

technical field [0001] The invention relates to the technical field of structural topology optimization, in particular to a BESO topology optimization method based on dynamic evolution rate and self-adaptive grid and its application. Background technique [0002] Structural topology optimization is often applied in the field of construction and optimization processing such as 3D printing. The goal of topology optimization is to find the optimal topology that satisfies the design conditions in the design domain of the structure, so as to give full play to the material properties and make the structure have the best efficiency of resisting external forces. Among the most commonly used structural optimization design methods at present, most continuum topology optimization methods including Bidirectional Progressive Optimization (BESO) are based on finite element technology, that is, it is necessary to discretize the continuum grid , and then perform the iterative operation of ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F30/18G06F30/23G06F111/04G06F111/06
CPCG06F30/18G06F30/23G06F2111/04G06F2111/06
Inventor 徐安林海东赵若红傅继阳吴玖荣邓挺
Owner GUANGZHOU UNIVERSITY
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