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Piston Friction Reduction by Reducting Piston Compression Height for Large Bore Engine Applications

机译：通过减少大型钻孔发动机应用的活塞压缩高度通过减少活塞摩擦

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Improving engine efficiency and reducing the total cost of ownership demands engine friction loss reduction through optimal design, especially for large bore application considering the amount of fuel the engine consumes during its service life. Power cylinder is a big source for engine friction and piston accounts for about 25% to 47% of the power cylinder friction [1]. Thus the piston design needs to be optimized to minimize friction; and at the same time, not sacrificing the durability. This work focuses on piston friction reduction by utilizing shorter compression height piston for large bore engine application through analytical simulation study. From the simulation study, 12.5% friction reduction has been achieved in the piston skirt to liner interface for the shorter piston with longer connecting-rod compared to the baseline design.

机译：提高发动机效率并降低所有权总成本要求通过最佳设计来降低发动机摩擦损失，特别是考虑到发动机在其使用寿命期间消耗的燃料量的大孔应用。动力缸是发动机摩擦的大源，活塞占动力缸摩擦的约25％至47％[1]。因此，需要优化活塞设计以最小化摩擦; 同时，不牺牲耐用性。通过分析模拟研究利用较短的压缩高度活塞，通过利用较短的压缩高度活塞来减少活塞摩擦降低。从模拟研究中，活塞裙的12.5％摩擦力减少到较短的活塞的衬里界面，与基线设计相比，较长的活塞更长的连接杆。

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《SAE World Congress Experience》|2017年|1 Electronic text data|共8页
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作者
Chao Cheng; Akintomide Akinola;
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原文格式 PDF
正文语种
中图分类 U46-53;
关键词
IC engine; Power cylinder; Piston modeling; Dynamics; Friction; Asperity contact; Hydrodynamic contact;

机译：IC发动机;动力缸;活塞造型;动态;摩擦;粗糙接触;流体动力接触;

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专利

1. Friction improvement of new generations of engines by PTWA cylinder bore coating and new piston rings [J] . L. Schramm, C. Verpoort, A. Schwenk, DVS-Berichte . 2011,第276期

机译：PTWA缸孔涂层和新型活塞环改善了新一代发动机的摩擦
2. Impacts of Friction-Modified Fully Formulated Engine Oils on Tribological Performance of Nitrided Piston Rings Sliding against Cast Iron Cylinder Bores [J] . YAJUN MA, SHENGHUA LI, YUANSHENG JIN, Tribology Transactions . 2004,第3期

机译：摩擦改性全配方机油对渗氮活塞环在铸铁汽缸膛上滑动的摩擦性能的影响
3. Tribocarbonisation of a Synthetic Engine Oil In Lubricated Piston Ring/Cylinder Bore Sliding Contact and its Relation to Friction and Wear [J] . S. H. Li, R. J. Zhang, Y. S. Jin, Journal of Synthetic Lubrication: Research, Development, and Application of Synthetic and Biodegradable Lubricants . 2003,第3期

机译：润滑的活塞环/缸孔滑动接触中的合成机油的摩擦碳化及其与摩擦磨损的关系
4. Piston Friction Reduction by Reducting Piston Compression Height for Large Bore Engine Applications [C] . Chao Cheng, Akintomide Akinola SAE World Congress Experience . 2017

机译：通过减少大型孔发动机应用的活塞压缩高度通过减少活塞摩擦减少
5. LUBRICATION AND FRICTION OF PISTON AND PISTON RINGS IN INTERNAL COMBUSTION ENGINES. [D] . MILTSIOS, GEORGE K. 1987

机译：内燃发动机活塞和活塞环的润滑和摩擦。
6. Diagnosis and Improvement of Combustion Characteristics of Methanol Miniature Reciprocating Piston Internal Combustion Engine [O] . Gangzhi Tang, Shuaibin Wang, Li Zhang, 2020

机译：甲醇微型往复活塞式内燃机燃烧特性的诊断与改进
7. Waste Cooking Oil Blended With The Engine Oil For Reduction of Friction and Wear On Piston Skirt [O] . Sakinah Hisham, K. Kadirgama, D. Ramasamy, 2017

机译：与机油混合的废烹饪油，可减少活塞裙的摩擦和磨损
8. Low Tension Piston Rings and Roller CAM Follower for Engine Friction Reduction-Costs of Retooling and Fuel Economy Benefits [R] . Thur, G. M., Paterson, D. J., Reilly, D. 1988

机译：用于发动机摩擦减少的低张力活塞环和滚子Cam从动件 - 重新调整成本和燃油经济性优势

Piston Friction Reduction by Reducting Piston Compression Height for Large Bore Engine Applications

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