锁环式同步器同步过程摩擦锥面摩擦特性试验
|
摘要
为了研究锁环式同步器同步过程摩擦锥面的摩擦特性,对其同步过程进行试验研究。以同步器同步过程为理论基础,搭建了同步器摩擦磨损试验平台,在不同载荷和换挡转速差下进行摩擦试验,研究了同步器同步过程摩擦锥面摩擦特性的变化规律。研究结果表明:随着同步过程的不断进行,摩擦副的摩擦系数先降低后逐渐趋于稳定;载荷与同步器两端的转速差对同步器摩擦副的摩擦系数影响较小,温度是主要影响因素;给定工况下,温度升高7℃时,摩擦副的摩擦系数减少0.006。分析同步器摩擦锥面摩擦系数的变化规律,为建立同步器同步过程摩擦系数补偿控制策略进而提升换挡品质奠定了基础。
In order to study the friction characteristics of friction cone during the synchronous process,the synchronous process was experimentally studied. Based on the regularities of synchronizer's synchronous shift phase,a friction and wear test bench was built,and the friction characteristics of synchronizer's friction cone were studied under different load and shift speed difference. The results show that,as the synchronous process continues,the friction coefficient of synchronizer friction pair decreases first and then gradually becomes stable; The speed difference and the load have little effect on the friction coefficient of the synchronizer friction pair,and the temperature is the main factor.As the temperature increases by 7℃,the friction coefficient of friction pair decreases by 0.006 under given condition.The friction coefficient changing regularities of friction cone were analyzed,which lays a good theoretical basis for establishing an effective friction coefficient compensation control strategy during the synchronous shift phase.
In order to study the friction characteristics of friction cone during the synchronous process,the synchronous process was experimentally studied. Based on the regularities of synchronizer's synchronous shift phase,a friction and wear test bench was built,and the friction characteristics of synchronizer's friction cone were studied under different load and shift speed difference. The results show that,as the synchronous process continues,the friction coefficient of synchronizer friction pair decreases first and then gradually becomes stable; The speed difference and the load have little effect on the friction coefficient of the synchronizer friction pair,and the temperature is the main factor.As the temperature increases by 7℃,the friction coefficient of friction pair decreases by 0.006 under given condition.The friction coefficient changing regularities of friction cone were analyzed,which lays a good theoretical basis for establishing an effective friction coefficient compensation control strategy during the synchronous shift phase.
引文
[1]李波,常思勤,林树森.一种新型增力式同步器设计[J].中国机械工程,2013,24(17):2301-2305.
[2]王克峰.同步器同步过程摩擦热力学分析与试验研究[D].山东淄博:山东理工大学,2017.
[3]刘景南.双离合器自动变速器预换挡控制及仿真分析[D].重庆:重庆大学,2011.
[4]赵二辉,马彪,李和言,等.转速对湿式离合器局部润滑及摩擦特性影响研究[J].兵工学报,2017,38(4):625-633.
[5]李和言,马成男,吴健鹏,等.铜基粉末冶金干式摩擦副磨合过程摩擦性能研究[J].摩擦学学报,2018,38(2):153-160.
[6]王顺利,凌晨,席军强.同步器同步过程摩擦因数变化试验及仿真研究[J].汽车技术,2015(7):32-34.
[7]DANIEL HGGSTRM,PR NYMAN,Ulf SELLGREN,et al.Predicting friction in synchronizer systems[J].Tribology International,2016,97:89-96.
[8]LI M,KHONSARI M M,LINGESTEN N,et al.Model validation and uncertainty analysis in the wear prediction of a wet clutch[J].Wear,2016,s 364-365:112-121.
[9]MARKLUND P,LARSSON R.Wet clutch friction characteristic obtained from simplified pin on disc test[J].Tribol Int,2008,41(9):824-830
[10]张向伟,金晓怡,钮冬科,等.销盘摩擦副摩擦性能分析[J].机械设计与研究,2013,29(6):135-137.
[11]谢伯元,张琦,鲁毅飞,等.紧急制动摩擦片的摩擦因数研究[J].农业机械学报,2006,37(12):33-35.
[12]李媛,刘小君,张彦,等.面接触条件下织构表面摩擦特性研究[J].机械工程学报,2012,48(19):109-115.
[13]张涛,陈晓阳,姜绍娜,等.精密轴承球与保持架的摩擦特性研究[J].机械设计与研究,2015,31(4):86-89.
[14]HAO J J,DING X H,WEI J W.Design of test bench for transmission efficiency of AMT actuator[J].Applied Mechanics and Materials,2013,307:79-83.
[15]李波.基于直驱技术的AMT换挡系统设计与性能研究[D].南京:南京理工大学,2013.
[2]王克峰.同步器同步过程摩擦热力学分析与试验研究[D].山东淄博:山东理工大学,2017.
[3]刘景南.双离合器自动变速器预换挡控制及仿真分析[D].重庆:重庆大学,2011.
[4]赵二辉,马彪,李和言,等.转速对湿式离合器局部润滑及摩擦特性影响研究[J].兵工学报,2017,38(4):625-633.
[5]李和言,马成男,吴健鹏,等.铜基粉末冶金干式摩擦副磨合过程摩擦性能研究[J].摩擦学学报,2018,38(2):153-160.
[6]王顺利,凌晨,席军强.同步器同步过程摩擦因数变化试验及仿真研究[J].汽车技术,2015(7):32-34.
[7]DANIEL HGGSTRM,PR NYMAN,Ulf SELLGREN,et al.Predicting friction in synchronizer systems[J].Tribology International,2016,97:89-96.
[8]LI M,KHONSARI M M,LINGESTEN N,et al.Model validation and uncertainty analysis in the wear prediction of a wet clutch[J].Wear,2016,s 364-365:112-121.
[9]MARKLUND P,LARSSON R.Wet clutch friction characteristic obtained from simplified pin on disc test[J].Tribol Int,2008,41(9):824-830
[10]张向伟,金晓怡,钮冬科,等.销盘摩擦副摩擦性能分析[J].机械设计与研究,2013,29(6):135-137.
[11]谢伯元,张琦,鲁毅飞,等.紧急制动摩擦片的摩擦因数研究[J].农业机械学报,2006,37(12):33-35.
[12]李媛,刘小君,张彦,等.面接触条件下织构表面摩擦特性研究[J].机械工程学报,2012,48(19):109-115.
[13]张涛,陈晓阳,姜绍娜,等.精密轴承球与保持架的摩擦特性研究[J].机械设计与研究,2015,31(4):86-89.
[14]HAO J J,DING X H,WEI J W.Design of test bench for transmission efficiency of AMT actuator[J].Applied Mechanics and Materials,2013,307:79-83.
[15]李波.基于直驱技术的AMT换挡系统设计与性能研究[D].南京:南京理工大学,2013.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |