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中国乘用车轻量化水平发展趋势研究 被引量:9

Research on Development Trends of Lightweight Level of Passenger Cars in China
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摘要 采集了2010~2020年中国市场销售的约1.5万个燃油乘用车和电动乘用车样本,采用整车轻量化系数作为乘用车轻量化水平评价指标,对其不同类型、级别和车系的整车轻量化水平变化趋势和现状进行了研究。结果表明,近10年各类燃油乘用车的整车轻量化系数持续下降,降幅约30%,行业整体轻量化水平不断提高,但提高的幅度趋缓。自主品牌燃油乘用车的整车轻量化水平与其他车系仍有一定的差距。电动乘用车的整车轻量化系数呈下降趋势,轻量化水平不断提高,但其与燃油乘用车的轻量化特征存在较大差异。 The sample data of 15000 internal combustion engine vehicles(ICEVs)and electric vehicles(BEVs)sold in the Chinese market from 2010 to 2020 were collected,the lightweight index was adopted to evaluate the lightweight level of the passenger cars,and the status and trends of vehicle lightweight level were studied.The results show that in the past ten years,the lightweight index of ICEVs has continued to decline and has decreased by about 30%.The overall lightweight level of the industry has continued to increase but the rise has slowed down.There is still a certain gap in the lightweight level of ICEVs between the self-owned brands and other brands.For BEVs,the lightweight index has also decreased and the lightweight level continues to increase.However,there is a noticeable difference in the lightweight level between BEVs and ICEVs.
作者 李军 周佳 王利刚 冯毅 江海涛 万鑫铭 LI Jun;ZHOU Jia;WANG Ligang;FENG Yi;JIANG Haitao;WAN Xinming(University of Science and Technology Beijing,Beijing 100083,China;National Engineering Laboratory for Automotive Energy-Saving and Environmental Protection,Chery Automotive Co.,Ltd.,Wuhu 241009,Anhui,China;China Automotive Engineering Research Institute Co.,Ltd.,Chongqing 401122,China;China Society of Automotive Engineer,Beijing 100055,China)
出处 《汽车工程学报》 2021年第5期313-319,362,共8页 Chinese Journal of Automotive Engineering
基金 国家重点研发计划项目(2016YFB0101605,2016YFB0101607) 国家重点研发计划项目子课题“电动汽车轻量化共性技术平台”(2016YFB0101607)。
关键词 汽车轻量化 整车轻量化系数 整备质量 乘用车 电动汽车 vehicle lightweight vehicle lightweight index curb weight passenger car electric vehicles
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  • 1马鸣图,柏建仁.汽车轻量化材料及相关技术的研究进展[J].新材料产业,2006(6):37-42. 被引量:39
  • 2付俊岩.汽车用铌微合金化钢板[M].北京:冶金工业出版社,2006.
  • 3Ludke Bruno, Pfestorf Markus. Functional Design of a Lightweight Body in White How to Determine Body in White Materials According to Structural Requirements[C]. Niobium Microalloyed _Sheet Steels for Automotive Applications, Edited by TMS ( The Minerals, Metals & Materials Society) ,2006:21 - 35.
  • 4马鸣图.先进的汽车用钢[M].北京:化学工业出版社,2007:1-130.
  • 5Liu Sheng-dong. Application of Advanced High Strength Steels in ULSAB-AVC [ C ]. Proceeding on Symposium of Seminar About Automotive Materials of China and USA ,2003 ,Feb.
  • 6Wang Qiaolu. New Transportation Fuels and Advanced Vehicle Technologies[ R ] :Issues and Life-Cycle Results, in the New Energy Potentials. Beijing, May 29 -30 2008.
  • 7Automotive Circle lnternatinnal,The presentation file of the International Car Body Benchmarking Platform[R]. Frank- furt, Germany.2012.
  • 8Lotus Engineering Inc. Evaluating the Structure and Crashworthiness of a 2020 Model-Year, Mass-Reduced Crossover Vehicle Using FEA Modeling[R].California Air Re- sources Board.2012.
  • 9冯美斌,等.中国近期鼓励发展的汽车轻量化技术[R].北京,国家发展与改革委员会,2007.
  • 10路洪洲,王智文,马鸣图,等.轻量化乘用汽车的星级评价方法研究[A],2012中国汽车轻量化技术研讨会论文集[C],北京:北京理工大学出版社,2012,496-506.

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