Detail publikace
Výpočtové modelování pístního kroužku ve 3D
DLUGOŠ, J. NOVOTNÝ, P.
Český název
Výpočtové modelování pístního kroužku ve 3D
Anglický název
Computational Modelling of Piston Ring Dynamics in 3D
Typ
článek v časopise - ostatní, Jost
Jazyk
en
Originální abstrakt
Advanced computational models of a piston assembly based on the level of virtual prototypes require a detailed description of piston ring behaviour. Considering these requirements, the piston rings operate in regimes that cannot in general be simplified into an axisymmetric model in general. The piston and the cylinder liner do not have a perfect round shape, due mainly due to machining tolerances and external thermo-mechanical loads. If the ring cannot follow the liner deformations, a local loss of contact occurs and resulting in blow-by and increased consumption of lubricant oil consumption consequently increase in the engine. Current computational models are unable to implement such effects. The paper focuses on the development of the a flexible 3D piston ring model based on the Timoshenko beam theory with the use ofusing the mMultibody system (MBS). The MBS model is compared to the fFinite element method (FEM) solution.
Český abstrakt
Advanced computational models of a piston assembly based on the level of virtual prototypes require a detailed description of piston ring behaviour. Considering these requirements, the piston rings operate in regimes that cannot in general be simplified into an axisymmetric model in general. The piston and the cylinder liner do not have a perfect round shape, due mainly due to machining tolerances and external thermo-mechanical loads. If the ring cannot follow the liner deformations, a local loss of contact occurs and resulting in blow-by and increased consumption of lubricant oil consumption consequently increase in the engine. Current computational models are unable to implement such effects. The paper focuses on the development of the a flexible 3D piston ring model based on the Timoshenko beam theory with the use ofusing the mMultibody system (MBS). The MBS model is compared to the fFinite element method (FEM) solution.
Anglický abstrakt
Advanced computational models of a piston assembly based on the level of virtual prototypes require a detailed description of piston ring behaviour. Considering these requirements, the piston rings operate in regimes that cannot in general be simplified into an axisymmetric model in general. The piston and the cylinder liner do not have a perfect round shape, due mainly due to machining tolerances and external thermo-mechanical loads. If the ring cannot follow the liner deformations, a local loss of contact occurs and resulting in blow-by and increased consumption of lubricant oil consumption consequently increase in the engine. Current computational models are unable to implement such effects. The paper focuses on the development of the a flexible 3D piston ring model based on the Timoshenko beam theory with the use ofusing the mMultibody system (MBS). The MBS model is compared to the fFinite element method (FEM) solution.
Klíčová slova česky
pístní kroužek, dynamika, hydrodynamika, tření
Klíčová slova anglicky
piston ring, dynamics, hydrodynamics, friction
Rok RIV
2015
Vydáno
01.11.2015
Nakladatel
ČVUT
Místo
Praha
ISSN
1214-0821
Ročník
2015
Číslo
1
Strany od–do
1–7
Počet stran
7
BIBTEX
@article{BUT119016,
author="Jozef {Dlugoš} and Pavel {Novotný},
title="Computational Modelling of Piston Ring Dynamics in 3D",
year="2015",
volume="2015",
number="1",
month="November",
pages="1--7",
publisher="ČVUT",
address="Praha",
issn="1214-0821"
}