Open Access
Issue
E3S Web Conf.
Volume 360, 2022
2022 8th International Symposium on Vehicle Emission Supervision and Environment Protection (VESEP2022)
Article Number 01010
Number of page(s) 11
DOI https://doi.org/10.1051/e3sconf/202236001010
Published online 23 November 2022
  1. Liu Wei. Control and management of engine cleanliness[J]. Tianjin Automobile, 2013(1). [Google Scholar]
  2. Wang Yangyang, Chen Jun. Research on improving the effectiveness of cleanliness detection based on impurity particle acquisition and analysis process improvement[J]. Internal Combustion Engines & Parts, 2020(15):77-81. [Google Scholar]
  3. Wen Hao, Wang Rongfeng, Fan Qiong. Interpretation and Application of SEM/EDX Analysis Methods in Cleanliness Testing Standard ISO 16232[J]. China Standardization, 2020(S1):297-302. [Google Scholar]
  4. Liu Buyu. Analysis and countermeasures of the impact of particle pollution on the reliability of construction machinery[J]. Internal Combustion Engines & Parts, 2020(13):154-155. [Google Scholar]
  5. Wang Zhuping. On the cleanliness technology and control of power system[J]. Internal Combustion Engines and Parts, 2020(12):35-37. [Google Scholar]
  6. Zhu Zhengde. The improvement of cleanliness testing level in modern automobile engine manufacturing[C]/China Society of Automotive Engineering Annual Meeting. 2014. [Google Scholar]
  7. Tang Kai, Li Zhihong, Lu Weiwei. Research on New Methods of Engine Cleanliness Testing and Evaluation[A]. Chinese Internal Combustion Engine Society, Zhejiang Internal Combustion Engine Society. Internal Combustion Engine Technology (Enterprise)-Proceedings of the 6th Annual Youth Academic Conference of China Internal Combustion Engine Society[A] C]. Chinese Internal Combustion Engine Society, Zhejiang Internal Combustion Engine Society: Zhejiang Science and Technology Association, 2015: 3. [Google Scholar]
  8. Han Chuang. Determination and analysis of engine cleanliness[J]. Internal Combustion Engines and Parts, 2014(12):26-31. [Google Scholar]
  9. Wang Kun, Gan Qingjun. Determination and control of engine parts cleanliness[J]. Shandong Industrial Technology, 2014(14):25. [Google Scholar]
  10. Zhu Zhengde. Ways to Improve the Test Quality of the Cleanliness of Internal Combustion Engine Parts[J]. Diesel Engine Design and Manufacturing, 2014, 000(004): 48-52. [Google Scholar]
  11. Tang Xin, Liu Ya. Analysis of influencing factors of cleanliness measurement by automatic particle counter method[J]. Petrochemical Technology, 2018, 025(007): 272-273. [Google Scholar]
  12. He Hongxia, Xia Liangxiong, Miao Zhiqiao. Application of microanalysis to detect cleanliness[J]. Equipment Manufacturing Technology, 2017(7). [Google Scholar]
  13. Xu Jiajia. Test method of auto parts cleanliness[J]. Journal paper. [Google Scholar]
  14. Verband der Automobilindustrie e.V. (VDA) Quality Management Center. Inspection of Technical Cleanliness: VDA19[S]. Germany: Verbandder Automobilindustrie e.V.(VDA), 2015. [Google Scholar]
  15. Technical Committee ISO/TC 22 Road vehicles. Road vehicles-Cleanliness of components and systems: ISO 16232:2018[S]. USA: Internation — al Standard Organization, 2018. [Google Scholar]
  16. Cao Gaofei. The effect of analytical cleanliness on engine reliability[J]. Automobile and Driving Maintenance (Maintenance Edition), 2018, 01(No. 457):119-120. [Google Scholar]
  17. Cao Zhitao, Han Song, Wei Qianzin. Cleanliness Control Standard of Aeroengine Parts[J]. Aerospace Power, 2020, No. 15(04):75-78. [Google Scholar]
  18. Kang Xinlong. Cleanliness management in the engine manufacturing process[J]. Automotive Practical Technology, 2017 (6): 162-164. [Google Scholar]
  19. Jiao Fengju. The influence and control of cleanliness on the quality of mechanical products[J]. Cleaning World, 2011 (4): 24-29. [Google Scholar]
  20. Zhuang Zhenya, Liu Fang, Sun Dongpo, et al. Cleanliness control of hydraulic valve body for hybrid electric drive transmission[J]. Shanghai Automotive, 2018, No. 336(08):45-48. [Google Scholar]
  21. Gao Liang, Zhang Wenquan. Discussion on the treatment and control of the cleanliness of the steam turbine oil system[J]. Economic and Technical Cooperation Information, 2010, 000(027): 134-134. [Google Scholar]
  22. Niu Yabo, Wu Yang, Su Jiangping. Test scores of blank value in cleanliness detection[J]. Automobile Practical Technology, 2018, 000(015):105-106, 126. [Google Scholar]
  23. Zuo Guanjun, Zhao Huiqiang. Cleanliness Analysis and Control Research[J]. Automobile Practical Technology, 2016, 000(005): 170-172. [Google Scholar]
  24. Wang Yanhong. Status Quo and Development Trend of Automobile Cleanliness Detection Technology[J]. Automobile Science and Technology, 1998, 000(006): 34-37. [Google Scholar]
  25. Gu Yunfei, Yang Li. Research on Cleanliness Management Standards in Automobile Manufacturing Process[J]. Quality and Standardization, 2018, 000(010): P. 48-50. [Google Scholar]
  26. Wang Jiangang, Lian Fengqi, Zhong Jiancheng. Application and development of cleanliness technology[J]. Machinery Manufacturing, 2018, 056(012): 114-116. [Google Scholar]
  27. Song Changqing. Engine cleanliness and cleaning technology and equipment[J]. China Equipment Engineering, 2016, 000(016): 174-175. [Google Scholar]
  28. Wang Kun, Gan Qingjun. Measurement and control of cleanliness of engine parts[J]. Shandong Industrial Technology, 2014, 000(014): 25-25. [Google Scholar]

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