踩
磨损(机械)
打滑(空气动力学)
材料科学
使用寿命
复合材料
扭矩
法律工程学
正相关
接触片
汽车工程
滑移率
滑移角
轮胎平衡
结构工程
试验方法
环境科学
作者
Cheng-Zhe Zheng,Hui-Ming Ren,Zi-Yuan Zhang,Yi-Hao Huang,Danling Wang,You-Ping Wu
摘要
Abstract Tread wear is one of the indicators determining the service life of tires. Since electric vehicles are heavier overall and exhibit greater starting torque than fuel cars, tread wear is more severe. This study aims to clarify and establish the correlation between laboratory abrasion and tire road wear. The correlations between LAT 100 abrasion in the wide range of slip angles, Akron abrasion, Lambourn abrasion, DIN abrasion, and tire road wear were compared, respectively. LAT 100 abrasion at 5.5° slip angle exhibits the strongest correlation with tire road wear. The causes are analyzed in combination with the tire service conditions of the tread. The Lambourn abrasion at 15% longitudinal slip ratio shows a similar trend with the tire road wear. The Akron abrasion condition is 15° slip angle, and the DIN abrasion condition is 100% longitudinal slip ratio, which are different from the tread of passenger vehicle service conditions. Therefore, their correlations with tire road wear are poor. This study clarified the correlation between different laboratory abrasions and tire road wear, and demonstrated the importance of selecting the proper laboratory test condition reflecting service driving conditions. Meanwhile, the influence of friction energy and the proportions of longitudinal and lateral friction energy on the abrasion patterns are also analyzed, and this is conducive to understand the roles of the longitudinal and lateral friction in abrasion.
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