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Functional optimization of the piston-cylinder system

Computational method for tribological

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  • Tribology
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Abstract

The current trends in the development of combustion engines, such as higher engine efficiency and specific power output, are responsible for increasing loads on the crankshaft drive components. This affects in particular the piston-cylinder-system, which has a significant influence on the engine performance. The BMW Group and Kassel University present a method for tribological functional optimization of the system piston group/cylinder liner. This is done by adjusting the cylinder bore distortion and surface roughness. Therefore a coupled multi-body EHD simulation and design of experiments are used.

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Authors and Affiliations

  1. BMW Group, Munich, Germany

    Niklas Berberich (Project Manager in the Department of Pre-Development and Innovation Management),  Thorsten Groß (Project Manager in the Department Pre-Development and Innovation Management),  Andreas Fischersworring-Bunk (Team Leader, CAE Crank Train and Cylinder Head) & Wolfgang Kornprobst (Team Leader, New Technologies Engine and Mechanical Chassis)

  2. University of Kassel, Kassel, Germany

    Gunter Knoll (Director of the Institute of Machine Elements and Tribology)

Authors
  1. Niklas Berberich
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  2. Gunter Knoll
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  3. Thorsten Groß
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  4. Andreas Fischersworring-Bunk
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  5. Wolfgang Kornprobst
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  6. Thilo Spitznagel
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Berberich, N., Knoll, G., Groß, T. et al. Functional optimization of the piston-cylinder system. MTZ Worldw 70, 42–48 (2009). https://doi.org/10.1007/BF03226961

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  • DOI: https://doi.org/10.1007/BF03226961

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