Detail publikace

Advanced Crankshaft for Low Power Losses

Originální název

Advanced Crankshaft for Low Power Losses

Anglický název

Advanced Crankshaft for Low Power Losses

Jazyk

en

Originální abstrakt

This article presents computational approaches to verification of low-power-losses crankshaft design and its vibration analysis. Reduction of power losses consists in decrease of the number of crankshaft main bearings and there is investigated the influence upon the crankshaft pulley torsional vibration and the main bearings load. The computational model is assembled as well as numerically solved in Multi-Body System and the modally reduced bodies are also incorporated into it.

Anglický abstrakt

This article presents computational approaches to verification of low-power-losses crankshaft design and its vibration analysis. Reduction of power losses consists in decrease of the number of crankshaft main bearings and there is investigated the influence upon the crankshaft pulley torsional vibration and the main bearings load. The computational model is assembled as well as numerically solved in Multi-Body System and the modally reduced bodies are also incorporated into it.

Dokumenty

BibTex


@inbook{BUT101755,
  author="Lubomír {Drápal} and Pavel {Novotný} and Václav {Píštěk} and Ondřej {Maršálek}",
  title="Advanced Crankshaft for Low Power Losses",
  annote="This article presents computational approaches to verification of low-power-losses crankshaft design and its vibration analysis. Reduction of power losses consists in decrease of the number of crankshaft main bearings and there is investigated the influence upon the crankshaft pulley torsional vibration and the main bearings load.
The computational model is assembled as well as numerically solved in Multi-Body System and the modally reduced bodies are also incorporated into it.",
  address="University of Defence",
  booktitle="Deterioration, Dependability, Diagnostics",
  chapter="101755",
  edition="University of Defence",
  howpublished="print",
  institution="University of Defence",
  year="2013",
  month="october",
  pages="229--236",
  publisher="University of Defence",
  type="book chapter"
}