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新能源汽车过热问题及关键技术分析 被引量:4

Analysis on Overheating Problem and Key Technologies of New Energy Vehicles
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摘要 新能源汽车过热问题不仅影响用户的人身安全,也阻碍了新能源汽车进一步发展。为了减少新能源汽车售后市场频发的过热问题,从用户因素、服务站因素和车企因素3个方面,对可能导致新能源汽车过热问题的原因进行分析,提出引导用户习惯、提升服务站维修能力、创新车企技术积累、加强加严国标等减少新能源汽车过热问题的措施。为新能源汽车领域相关人员提供一定的理论指导,从而推动新能源汽车市场更好地发展。 The overheating problem of new energy vehicles not only affects the personal safety of users, but also hinders the further development of new energy vehicles. In order to reduce the frequent overheating problem in the after market of new energy vehicles, this paper analyzes the possible causes of the overheating problem of new energy vehicles from three aspects of user factors, service station factors and vehicle enterprise factors, and puts forward some measures to reduce the overheating problem of new energy vehicles, such as guiding user habits, improving service station maintenance ability, innovating vehicle enterprise technology accumulation, and strengthening national standards. It provides certain theoretical guidance for relevant personnel in the field of new energy vehicles so as to promote the better development of the new energy vehicle market.
作者 徐晓东 XU Xiaodong
出处 《汽车工程师》 2020年第1期44-46,50,共4页 Automotive Engineer
关键词 新能源汽车 售后市场 过热问题 New energy vehicles After market Overheating problem
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  • 1王青松,孙金华,何理.锂离子电池安全性特点及热模型研究[J].中国安全生产科学技术,2005,1(3):19-21. 被引量:17
  • 2庞静,卢世刚,刘莎.锂离子电池过充特性的研究[J].电化学,2005,11(4):398-401. 被引量:18
  • 3王震坡,孙逢春,林程.不一致性对动力电池组使用寿命影响的分析[J].北京理工大学学报,2006,26(7):577-580. 被引量:135
  • 4李小明,李彦生,韩景芸.基于超声波焊接技术的快速成型方法研究[J].机床与液压,2007,35(3):4-6. 被引量:12
  • 5Laborde J L, Hita A,Caltagirone J P, et al. Fluid dynamics phe-nomena induced by poser ultrasounds[ J] . Ultrasonics, 2000, 38(2):297-300.
  • 6LIU Zhi-liang(刘智良).某手机壳体超声波焊接工艺研究[D]:Xi’an(西安):Northwestern Polytechnical University(西北工业大学),2006.
  • 7ZHANG Yun-dian(张云电)?超声加工及其应用[M] .Beijing(北京):National Defence Industrial Press(国防工业出版社),1995.10-19.
  • 8Wang Qingsong, Ping Ping, Zhao Xuejuan, et al. Thermal runaway caused fire and explosion of lithium ion battery [J]. Journal of Power Sources, 2012,208: 210-224.
  • 9Fu Yangyang, Lu song, Li Kaiyuan, et al. An experimental study on burning behaviors of 18650 lithium ion batteries using a cone calorimeter [J]. Journal of Power Sources, 2015, 273: 216-222.
  • 10Feng Xuning, Sun Jing, Ouyang Minggao, et al. Characterization of large format lithium ion battery exposed to extremely high temperature [J]. Journal of Power Sources, 2014, 272: 457-467.

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