Add to ORKGDynamic simulations of a twin-cylinder boxer engine are carried out with rigid and flexible multibody models. Pistons and connecting rods are considered as rigid bodies while the crankshaft is modeled as a flexible part and meshed with brick elements. With this model, calculation of crankshaft stresses and displacements is possible. For constant speed studies, flexible simulations are carried out on one or two engine cycles but simulations with a variable rotation speed has to be performed on a larger number of engine revolutions. Due to the complex shape of the crankshaft, the simulation times become important and it is difficult to keep on working with the complete crankshaft model. Thus several simplified models, including super e...
This paper discusses the development of a multibody model of a Ducati L-twin engine cranktrain, aime...
This work develops a methodology for the FEM simulation of a multi-piece crankshaft. Various simulat...
This paper addresses the development of an elastodynamic model of a motorcycle engine cranktrain aim...
Engine simulation is an important issue to design mechanical components and to reduce the developmen...
The work presented in this paper was supported by the project no. SGS-2016-038 of University of Wes...
A coupled rigid and flexible body dynamics formulation is developed for analyzing, at a system level...
none3noThe development of a multibody model of a motorbike L-twin engine cranktrain is presented in ...
The avoidance of excessive free forces and torsional vibration at cranktrains is essential for a lon...
This paper analyses the vibration behaviour of an in-line 4-cylinder, 4-strokes, internal combustion...
This paper addresses the development of an elastodynamic model of a motorcycle engine cranktrain, ai...
This paper analyzes the vibration behavior of an in-line 4-cylinder, 4-strokes, internal combustion ...
The development of a multibody model of a motorbike engine cranktrain is presented in this work, wit...
The article presents the modeling and simulation of the crank-piston model of internal combustion en...
This paper discusses the development of a multibody model of a Ducati L-twin engine cranktrain, aime...
This work develops a methodology for the FEM simulation of a multi-piece crankshaft. Various simulat...
This paper addresses the development of an elastodynamic model of a motorcycle engine cranktrain aim...
Engine simulation is an important issue to design mechanical components and to reduce the developmen...
The work presented in this paper was supported by the project no. SGS-2016-038 of University of Wes...
A coupled rigid and flexible body dynamics formulation is developed for analyzing, at a system level...
none3noThe development of a multibody model of a motorbike L-twin engine cranktrain is presented in ...
The avoidance of excessive free forces and torsional vibration at cranktrains is essential for a lon...
This paper analyses the vibration behaviour of an in-line 4-cylinder, 4-strokes, internal combustion...
This paper addresses the development of an elastodynamic model of a motorcycle engine cranktrain, ai...
This paper analyzes the vibration behavior of an in-line 4-cylinder, 4-strokes, internal combustion ...
The development of a multibody model of a motorbike engine cranktrain is presented in this work, wit...
The article presents the modeling and simulation of the crank-piston model of internal combustion en...
This paper discusses the development of a multibody model of a Ducati L-twin engine cranktrain, aime...
This work develops a methodology for the FEM simulation of a multi-piece crankshaft. Various simulat...
This paper addresses the development of an elastodynamic model of a motorcycle engine cranktrain aim...