ANSYS Analysis on Thermal Structure of Bionic Brake Discs

Wang, Li Xin; Gao, Ya Yan; Li, Peng; Zhai, Li Gang

doi:10.4028/www.scientific.net/amm.789-790.430

Cited by 1 publication

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“…If the heat dissipation capacity of the brake disc is insufficient, the heat generated by friction will not be dissipated in time. When the brake disc is in a high temperature state for a long time, the incidence of hot cracks will be increased, which will have a great impact on the stability of friction coefficient and the linear output of braking torque, and even lead to failure brake [1]. There are two types of brake discs, ventilation type and solid type.…”

Section: Introductionmentioning

confidence: 99%

Multi-objective optimization of disc brake structure based on heat transfer performance

Zhang¹,

Zhu²,

Xu³

2022

Vib. proced.

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As an important basis for its structural optimization design, the heat transfer performance has a key influence on the reliability of automobile brake. Based on the finite element method, the transient heat transfer of automobile disc brake is analyzed under the condition of dynamic convection heat transfer coefficient. According to the simulation results, the CCD (Central Composite Design) sampling scheme is used to transform the optimization variable and target variable into multiple design points in the decision space. The optimization variable includes the total thickness, the height of the ventilation slot, the angle between the sides of the ribs, the number of ribs while the target variable includes the mass and temperature peak. According to the multiple quadratic regression model, the response surface function is constructed, and the approximate model of optimization analysis is obtained. The error analysis shows that the response surface function is equipped with good fitting accuracy. In order to facilitate the extremum search, the optimization of the quality is transformed into the constraint condition, and the multi-objective optimization problem of the brake disc is transformed into the single objective optimization problem. Through the sequential quadratic programming method, the Pareto optimal solution set of the optimal mathematical model is found. The results show that the temperature peak value is reduced by 7.8 % under the condition where the quality of the ventilation plate is basically unchanged. By weighting the Pareto optimal solution sets of different quality intervals, a good result evaluation of ventilation panel optimization is achieved.

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Section: Introductionmentioning

confidence: 99%