%0 Journal Article
%T 液力变矩器机构变量交互作用研究<br>Study on Mechanism Variables Interaction of Torque Converter
%A 王安麟
%A 孟庆华
%A 李文嘉
%A 韩继斌
%J 西安交通大学学报
%D 2015
%R 10.7652/xjtuxb201509001
%X 为解决现有液力变矩器机构变量优化设计中采用分步优化方法存在的问题,通过对比台架试验数据确认了三维流体仿真结果的准确性,运用正交试验、通过全流道流体仿真得到了起动变矩比、最高效率和最高效率工况下泵轮扭矩系数;采用方差分析法研究了机构变量间的交互作用对液力变矩器性能影响的显著性,在考虑交互作用的基础上建立了五元三次响应曲面模型且应用多目标遗传算法进行了优化。研究表明:机构变量间交互作用显著影响着液力变矩器的性能,采用机构变量综合优化方法优化后,起动变矩比提高了0.336,最高效率提高了2.1％,最高效率工况下泵轮扭矩系数提高了0.306×10-6 min2？r-2？m-1。<br>In order to solve the problem caused by the separated step optimization for the design of the mechanism variables of torque converter, the significance of mechanism variables interaction was studied. Firstly, the accuracy of three dimensional fluid simulation results was confirmed in comparison with the bench test data. Secondly, starting torque ratio, highest efficiency and pump wheel torque coefficient at the transmission ratio of highest efficiency were obtained through full flow passages simulation based on the orthogonal experiments, and the significance of mechanism variables interaction was discussed through analysis of variance. Finally, the ternary quintic response surface model was established and optimized by using multi？？objective genetic algorithm. The experiment results showed that mechanism variables interaction significantly affected torque converter performance and after optimization using the integrated optimization method of mechanism variables, starting torque ratio increased by 0.336, highest efficiency increased by 2.1％, and pump wheel torque coefficient at the transmission ratio of highest efficiency increased by 0.306×10-6 min2？r-2？m-1
%K 液力变矩器
%K 机构变量
%K 交互作用
%K 显著性
%K 响应曲面模型&lt
%K br&gt
%K torque converter
%K mechanism variables
%K interaction
%K significance
%K response surface model
%U http://zkxb.xjtu.edu.cn/oa/DArticle.aspx?type=view&id=201509001