In the context of suspension design, the installation ratio (or motion ratio) is a parameter that relates wheel movement with spring deflection, quite an important kinematic property of a suspension. Yet, no study in the literature provides a clear relationship between the installation ratio and the geometrical features of a suspension. This paper employs rigid body kinematics and appropriate geometrical schematics to fill such a gap. Analytical expressions of the installation ratio are derived for three suspension layouts: swing axle, McPherson, double wishbone. Key concepts such as instant center, roll center and camber gain are harnessed to provide insightful analyses for relevant case studies of suspension passenger cars. Among the key ...
In the present work, the operating conditions of “side-load” springs, which are typically employed i...
The purpose of this paper is to compare the Double Wishbone Leaf spring suspension system and the Ma...
Simulation accuracy by recent dynamic vehicle simulation multidimensional expression significantly h...
In the context of suspension design, the installation ratio (or motion ratio) is a parameter that re...
The front double wishbone suspension parameters are related as a multi-body model. By replacing the ...
The paper deals with study and analysis of the suspension parameters. The suspension design is very ...
The suspension of a road vehicle is usually designed with two objectives namely: to isolate the vehi...
The fast moving, globalized vehicle industry has put extreme pressures to be able to develop new veh...
Active and semi-active suspension systems are widely diffused into the automotive industry. Most of ...
This paper introduces novel approaches for analysis of the double wishbone suspension mechanism. In ...
A synthesis technique for designing novel vehicle suspension linkages based on the Watt I six-bar is...
In this paper, the effects of roll center height of McPherson suspension mechanism on dynamic behavi...
In this study, a novel kinematic analysis procedure of the double wishbone suspension mechanism rega...
AbstractIn this article the design of the suspension of a sports car with the class “FORMULA SAE” is...
The article discusses the impact of design solutions of vehicle suspensions into angles of body roll...
In the present work, the operating conditions of “side-load” springs, which are typically employed i...
The purpose of this paper is to compare the Double Wishbone Leaf spring suspension system and the Ma...
Simulation accuracy by recent dynamic vehicle simulation multidimensional expression significantly h...
In the context of suspension design, the installation ratio (or motion ratio) is a parameter that re...
The front double wishbone suspension parameters are related as a multi-body model. By replacing the ...
The paper deals with study and analysis of the suspension parameters. The suspension design is very ...
The suspension of a road vehicle is usually designed with two objectives namely: to isolate the vehi...
The fast moving, globalized vehicle industry has put extreme pressures to be able to develop new veh...
Active and semi-active suspension systems are widely diffused into the automotive industry. Most of ...
This paper introduces novel approaches for analysis of the double wishbone suspension mechanism. In ...
A synthesis technique for designing novel vehicle suspension linkages based on the Watt I six-bar is...
In this paper, the effects of roll center height of McPherson suspension mechanism on dynamic behavi...
In this study, a novel kinematic analysis procedure of the double wishbone suspension mechanism rega...
AbstractIn this article the design of the suspension of a sports car with the class “FORMULA SAE” is...
The article discusses the impact of design solutions of vehicle suspensions into angles of body roll...
In the present work, the operating conditions of “side-load” springs, which are typically employed i...
The purpose of this paper is to compare the Double Wishbone Leaf spring suspension system and the Ma...
Simulation accuracy by recent dynamic vehicle simulation multidimensional expression significantly h...