WOS: 000342488600005Designing valve lift of cam-follower system is very important for improving dynamic performance of internal combustion engines. Potential problems due to unwanted vibrations in high-speed engine are the follower jump, colliding surface of the valves, and seats which cause collide in a cam-follower system. The degree of collide depends on the valve lift value and valve closing velocity. Large forces and stresses are introduced when the cam and follower collide. This might cause early failure of the system due to unwanted vibration. The main purpose of present experimental study was to investigate and analyze the dynamic behavior of the cam-follower system for different valve lift values and operating speeds using time dom...
This paper present the contact stresses, which considers the shear stress at the cam and follower in...
This paper details the new design and dynamic simulation of an electro-hydraulic camless engine valv...
A valve gear system is currently more or less a classical mechanical system in a majority of diesel ...
The valve train is one of the main sources of engine vibration, and its dynamic performance is cruci...
Abstract: The primary function of the camshaft is the smooth opening and closing of valves. In actua...
High speed valve train systems for automotive engines are the subject of this research. The primary ...
Cam is a mechanical component that translates movement from circular to reciprocating by using matin...
A method to study parametric instability of flexible cam-follower systems, based on Floquet theory, ...
In this paper, a multibody model of a car engine valve train system was developed, by using LMS Vir...
Current heavy-duty diesel engines rely on traditional camshaft technology for reliable valvetrain op...
The goal of this project was to investigate the dynamic effects of incipient separation of industria...
Variable valve timing (VVT) is an innovative design that enhances automotive engine performance and...
This investigation of the design and performance of high-speed spring loaded cam systems attempts to...
In the automotive field during the last decade, owing primarily to increases in maximum engine speed...
Improvement of fuel economy is one of the most important development targets of modern passenger car...
This paper present the contact stresses, which considers the shear stress at the cam and follower in...
This paper details the new design and dynamic simulation of an electro-hydraulic camless engine valv...
A valve gear system is currently more or less a classical mechanical system in a majority of diesel ...
The valve train is one of the main sources of engine vibration, and its dynamic performance is cruci...
Abstract: The primary function of the camshaft is the smooth opening and closing of valves. In actua...
High speed valve train systems for automotive engines are the subject of this research. The primary ...
Cam is a mechanical component that translates movement from circular to reciprocating by using matin...
A method to study parametric instability of flexible cam-follower systems, based on Floquet theory, ...
In this paper, a multibody model of a car engine valve train system was developed, by using LMS Vir...
Current heavy-duty diesel engines rely on traditional camshaft technology for reliable valvetrain op...
The goal of this project was to investigate the dynamic effects of incipient separation of industria...
Variable valve timing (VVT) is an innovative design that enhances automotive engine performance and...
This investigation of the design and performance of high-speed spring loaded cam systems attempts to...
In the automotive field during the last decade, owing primarily to increases in maximum engine speed...
Improvement of fuel economy is one of the most important development targets of modern passenger car...
This paper present the contact stresses, which considers the shear stress at the cam and follower in...
This paper details the new design and dynamic simulation of an electro-hydraulic camless engine valv...
A valve gear system is currently more or less a classical mechanical system in a majority of diesel ...