Abstract: The elastic effects of the valve train components are analyzed by using the finite element models of the rocker arm and valve. The whole equations of motion of the valvetrain of an internal combustion engine formulated by finite element techniques are solved by imposing the contact conditions with the augmented Lagrange multiplier method. The velocity and acceleration constraints as well as the displacement constraints are imposed on the contact points. The numerical simulations show that, even if the magnitude of the elastic deformation of the components is very small, it may have large effects on the valvetrain dynamics of a high-speed engine
This paper presents a numerical methodology to predict the stress evolution in internal combustion e...
The ideal function of a valvetrain system is to synchronize the opening and closing of the inlet and...
A transient non-linear finite element (FE) model is developed in this paper to calculate the natural...
An analysis of the literature for currently used solutions of valve trains in internal combustion en...
Abstract- A study of dynamics of valve train is carried out using the software tool TYCON. Each and ...
The valve train is one of the main sources of engine vibration, and its dynamic performance is cruci...
The component rocker arm is one of the most important parts in valve actuating mechanism of an inter...
In this paper, a multibody model of a car engine valve train system was developed, by using LMS Vir...
AbstractThe valve train plays a major role in the performance of internal combustion engines by cont...
AbstractThe paper sets forth the refined estimation technique of internal combustion engine valve tr...
Nowadays, the constant striving to reduce the emission and increase the overall efficiency over a wi...
The aim of this paper has been the evaluation of the elasticity constant which characterizes the cam...
A 2-degree of freedom model of the hydraulic valve lifter of an internal combustion engine is invest...
A combined lumped/finite element model of a portion of the desmodromic valve train of a racing motor...
Within the field of applied mathematics, it is often the case that a general solution to a particula...
This paper presents a numerical methodology to predict the stress evolution in internal combustion e...
The ideal function of a valvetrain system is to synchronize the opening and closing of the inlet and...
A transient non-linear finite element (FE) model is developed in this paper to calculate the natural...
An analysis of the literature for currently used solutions of valve trains in internal combustion en...
Abstract- A study of dynamics of valve train is carried out using the software tool TYCON. Each and ...
The valve train is one of the main sources of engine vibration, and its dynamic performance is cruci...
The component rocker arm is one of the most important parts in valve actuating mechanism of an inter...
In this paper, a multibody model of a car engine valve train system was developed, by using LMS Vir...
AbstractThe valve train plays a major role in the performance of internal combustion engines by cont...
AbstractThe paper sets forth the refined estimation technique of internal combustion engine valve tr...
Nowadays, the constant striving to reduce the emission and increase the overall efficiency over a wi...
The aim of this paper has been the evaluation of the elasticity constant which characterizes the cam...
A 2-degree of freedom model of the hydraulic valve lifter of an internal combustion engine is invest...
A combined lumped/finite element model of a portion of the desmodromic valve train of a racing motor...
Within the field of applied mathematics, it is often the case that a general solution to a particula...
This paper presents a numerical methodology to predict the stress evolution in internal combustion e...
The ideal function of a valvetrain system is to synchronize the opening and closing of the inlet and...
A transient non-linear finite element (FE) model is developed in this paper to calculate the natural...