The tribo-dynamics performance of the piston–cylinder system is affected by multiple physical fields. The current work presents a novel multiphysics coupling method to model and analyze the lubricated piston skirt–cylinder interface considering the cylinder liner vibration. This method is implemented by coupling multibody dynamics of the crank-connecting rod–piston–cylinder system, the heat transfer of the cylinder and piston, hydrodynamics lubrication on the skirt–cylinder interface, vibration of the cylinder liner, and thermal as well as elastic deformation in the piston–cylinder system together with rheological characteristics of lubricating oil. The proposed method is adopted into a four-stroke gasoline engine to predict its dynamics an...
Two methods for the modelling and analysis of the piston/cylinder interaction are compared in this p...
It is essential for the automotive industry to improve efficiency and mitigate frictional losses in ...
Abstract: Vibration behaviour of an internal combustion engine depends on rigid body inertial dynami...
The internal combustion engine is still at the heart of the vast majority of vehicles manufactured w...
This paper aims to investigate the efficiencies of the 4-stroke engine by observing the lubrication ...
Mechanical power loss of lubricated and bearing surfaces serves as an attractive domain for study an...
This paper describes a general, design-oriented model for the analysis of secondary motions in conve...
The present study aims to analyze the secondary movement of the piston considering the deformations ...
The friction pair of piston rings and cylinder liner is one of the most important friction couplings...
The main development directions in modern power engineering industries are related to increasing the...
One of the first tasks while designing pistons is to ensure the reliable engine operation with minim...
Influence of cylinder liner vibration on lateral motion and tribological behaviors for piston in int...
In machines and mechanisms, most of the clearance joints are designed to operate with lubricant flui...
The work performance of piston-cylinder liner system is affected by the lubrication condition and th...
An integrated simulation methodology for the analysis of piston tribology is presented. The methodol...
Two methods for the modelling and analysis of the piston/cylinder interaction are compared in this p...
It is essential for the automotive industry to improve efficiency and mitigate frictional losses in ...
Abstract: Vibration behaviour of an internal combustion engine depends on rigid body inertial dynami...
The internal combustion engine is still at the heart of the vast majority of vehicles manufactured w...
This paper aims to investigate the efficiencies of the 4-stroke engine by observing the lubrication ...
Mechanical power loss of lubricated and bearing surfaces serves as an attractive domain for study an...
This paper describes a general, design-oriented model for the analysis of secondary motions in conve...
The present study aims to analyze the secondary movement of the piston considering the deformations ...
The friction pair of piston rings and cylinder liner is one of the most important friction couplings...
The main development directions in modern power engineering industries are related to increasing the...
One of the first tasks while designing pistons is to ensure the reliable engine operation with minim...
Influence of cylinder liner vibration on lateral motion and tribological behaviors for piston in int...
In machines and mechanisms, most of the clearance joints are designed to operate with lubricant flui...
The work performance of piston-cylinder liner system is affected by the lubrication condition and th...
An integrated simulation methodology for the analysis of piston tribology is presented. The methodol...
Two methods for the modelling and analysis of the piston/cylinder interaction are compared in this p...
It is essential for the automotive industry to improve efficiency and mitigate frictional losses in ...
Abstract: Vibration behaviour of an internal combustion engine depends on rigid body inertial dynami...