This document analyzes the double wishbone suspension system used in sedan vehicles. It discusses how using low profile tires can increase hub rotation during braking due to the coupled nature of castor and longitudinal stiffness in a traditional double wishbone design. The objectives are to decouple castor and longitudinal stiffness, reduce castor trail loss and hub rotation when braking, while maintaining the suspension geometry kinematics. A potential solution of moving the longitudinal elastic center vertically down from the wheel center to the ground plane is proposed to be analyzed using multibody dynamics software.
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
High cornering and inclination stiffness characteri stics of these lower profile tires have benefited the steering and yaw responses of the mod ern vehicle,the associated increase in radial stiffness has reduced the tire�s effectivene ss as an isolator for ride comfort and harshness. Consequently,the modern suspension syst em has to ameliorate this loss of tire compliance while retaining accurate wheel control i f ride comfort is to be maintaining,for justifying the need,the new suspension System has to design and validate through multibody dynamics for minimum castor trail loss and elastic centre while breaking and isolation characteristics. This requirement for longitudinal compliance has an unfortunate side effect on hub control when braking forces are applied. Conseq uently,the hub rotates when the suspension is subject to braking forces. However,t his has to study considering the vehicle dynamics using ADAMS software. Based on vehicle dyn amics analysis it is confirm the lower the longitudinal stiffness of the suspension,greater the associated hub rotation under braking.
DESIGN AND ANALYSIS OF DOUBLE WISHBONE SUSPENSION SYSTEM USING FINITE ELEMENT...ijsrd.com
Double wishbone designs allow the engineer to carefully control the motion of the wheel throughout suspension travel. 3-D model of the Lower Wishbone Arm is prepared by using CAD software for modal and stress analysis. The forces and moments are used as the boundary conditions for finite element model of the wishbone arm. By using these boundary conditions static analysis is carried out. Then making the load as a function of time; quasi-static analysis of the wishbone arm is carried out. A finite element based optimization is used to optimize the design of lower wishbone arm. Topology optimization and material optimization techniques are used to optimize lower wishbone arm design.
Comparison Of Multibody Dynamic Analysis Of Double Wishbone Suspension Using ...IJRES Journal
This paper presents the multibody dynamic analysis of wishbone suspension for automotive cars. Modeling and analysis of suspension is carried out using MATLAB SimMechanics toolbox. Rigid dynamic analysis of suspension is also carried out using ANSYS software. Results of both the analysis are compared and it is observed that results of both the analysis are similar.
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
The International Journal of Engineering and Science (The IJES)theijes
The International Journal of Engineering & Science is aimed at providing a platform for researchers, engineers, scientists, or educators to publish their original research results, to exchange new ideas, to disseminate information in innovative designs, engineering experiences and technological skills. It is also the Journal's objective to promote engineering and technology education. All papers submitted to the Journal will be blind peer-reviewed. Only original articles will be published.
High cornering and inclination stiffness characteri stics of these lower profile tires have benefited the steering and yaw responses of the mod ern vehicle,the associated increase in radial stiffness has reduced the tire�s effectivene ss as an isolator for ride comfort and harshness. Consequently,the modern suspension syst em has to ameliorate this loss of tire compliance while retaining accurate wheel control i f ride comfort is to be maintaining,for justifying the need,the new suspension System has to design and validate through multibody dynamics for minimum castor trail loss and elastic centre while breaking and isolation characteristics. This requirement for longitudinal compliance has an unfortunate side effect on hub control when braking forces are applied. Conseq uently,the hub rotates when the suspension is subject to braking forces. However,t his has to study considering the vehicle dynamics using ADAMS software. Based on vehicle dyn amics analysis it is confirm the lower the longitudinal stiffness of the suspension,greater the associated hub rotation under braking.
DESIGN AND ANALYSIS OF DOUBLE WISHBONE SUSPENSION SYSTEM USING FINITE ELEMENT...ijsrd.com
Double wishbone designs allow the engineer to carefully control the motion of the wheel throughout suspension travel. 3-D model of the Lower Wishbone Arm is prepared by using CAD software for modal and stress analysis. The forces and moments are used as the boundary conditions for finite element model of the wishbone arm. By using these boundary conditions static analysis is carried out. Then making the load as a function of time; quasi-static analysis of the wishbone arm is carried out. A finite element based optimization is used to optimize the design of lower wishbone arm. Topology optimization and material optimization techniques are used to optimize lower wishbone arm design.
Comparison Of Multibody Dynamic Analysis Of Double Wishbone Suspension Using ...IJRES Journal
This paper presents the multibody dynamic analysis of wishbone suspension for automotive cars. Modeling and analysis of suspension is carried out using MATLAB SimMechanics toolbox. Rigid dynamic analysis of suspension is also carried out using ANSYS software. Results of both the analysis are compared and it is observed that results of both the analysis are similar.
IJRET : International Journal of Research in Engineering and Technology is an international peer reviewed, online journal published by eSAT Publishing House for the enhancement of research in various disciplines of Engineering and Technology. The aim and scope of the journal is to provide an academic medium and an important reference for the advancement and dissemination of research results that support high-level learning, teaching and research in the fields of Engineering and Technology. We bring together Scientists, Academician, Field Engineers, Scholars and Students of related fields of Engineering and Technology
To provide good ride and handling performance –
–vertical compliance providing chassis isolation
–ensuring that the wheels follow the road profile
–very little tire load fluctuation
•To ensure that steering control is maintained during maneuvering –
–wheels to be maintained in the proper position wrt road surface
•To ensure that the vehicle responds favorably to control forces produced by the tires during
–longitudinal braking
–accelerating forces,
–lateral cornering forces and
–braking and accelerating torques
–this requires the suspension geometry to be designed to resist squat, dive and roll of the vehicle body
•To provide isolation from high frequency vibration from tire excitation
–requires appropriate isolation in the suspension joints
–Prevent transmission of ‘road noise’ to the vehicle body
Forces are generated at the tire contact patch during various maneuvers of the car and transferred to the chassis through the suspension links. Calculating the forces on every link is important to design the suspension system as all the forces from wheel to the chassis are transferred by the suspension linkages. These forces have been calculated for all the links of a double wishbone suspension geometry. The load paths and FBD have been drawn and axial stress in the all the linkages
The simulation of a vehicles suspension system represents an important part of how the driver experiences ride quality. Without a suspension system, a vehicle acts in a stiff and uncomfortable way. The characteristics of a vehicles performance are dependent on the properties of the suspension. A model of this system would enable a manufacturer to test how certain changes to the properties change the behavior of the vehicle. This way they are able to see how the stiffness of the spring and damper in the suspension system affects the ride experience before building an actual car. This can also reduce the cost of development. The most basic suspension system consists of a spring and shock absorber and also includes the stiffness of the tire being used. More complex suspension systems consist of sensors that take into account and compensate for traction control, engine torque, steering, and braking systems.
To provide good ride and handling performance –
–vertical compliance providing chassis isolation
–ensuring that the wheels follow the road profile
–very little tire load fluctuation
•To ensure that steering control is maintained during maneuvering –
–wheels to be maintained in the proper position wrt road surface
•To ensure that the vehicle responds favorably to control forces produced by the tires during
–longitudinal braking
–accelerating forces,
–lateral cornering forces and
–braking and accelerating torques
–this requires the suspension geometry to be designed to resist squat, dive and roll of the vehicle body
•To provide isolation from high frequency vibration from tire excitation
–requires appropriate isolation in the suspension joints
–Prevent transmission of ‘road noise’ to the vehicle body
Forces are generated at the tire contact patch during various maneuvers of the car and transferred to the chassis through the suspension links. Calculating the forces on every link is important to design the suspension system as all the forces from wheel to the chassis are transferred by the suspension linkages. These forces have been calculated for all the links of a double wishbone suspension geometry. The load paths and FBD have been drawn and axial stress in the all the linkages
The simulation of a vehicles suspension system represents an important part of how the driver experiences ride quality. Without a suspension system, a vehicle acts in a stiff and uncomfortable way. The characteristics of a vehicles performance are dependent on the properties of the suspension. A model of this system would enable a manufacturer to test how certain changes to the properties change the behavior of the vehicle. This way they are able to see how the stiffness of the spring and damper in the suspension system affects the ride experience before building an actual car. This can also reduce the cost of development. The most basic suspension system consists of a spring and shock absorber and also includes the stiffness of the tire being used. More complex suspension systems consist of sensors that take into account and compensate for traction control, engine torque, steering, and braking systems.
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1. International Journal of Research in Advent Technology, Vol.3, No.12, December 2015
E-ISSN: 2321-9637
Available online at www.ijrat.org
75
Double Wishbone Suspension Analysis for Elastic
Center, Castor Trail and Standard Kinematic Analysis
Prashant Bhat1
, Prof. Ravindra R. Navthar 2
Technical Head- CAE/MBD-PD1
, McoE, Pune.
Associate Professor & PG Coordinator2
, Dept. of Mechanical Engineering, PDVVPCOE, Ahmednagar.
Email:prasshant0@gmail.com1
,ravi_navthar@rediffmail.com2
Abstract-Analysis and understand the performance characteristics of front double wishbone suspension system
for sedan vehicle handling using low profile tire which gives good steering handling in term of high cornering
and inclination stiffness characteristics. So it is essential to study the double wishbone suspension system for
evaluating the elastic center while braking and isolation characteristics. This requirement for longitudinal
compliance has an unfortunate side-effect on hub control when braking forces are applied. Consequently, the hub
rotates when the suspension is subject is subject to braking forces. So this has to study in Multibody Dynamics
considering the vehicle dynamics using ADAMS software. On the basis of vehicle dynamics analysis, it is
conforming that the lower the longitudinal stiffness of the suspension, greater the associated hub rotation under
braking. In the case of a front suspension, this gives potential for excessive castor trail loss and attendant steering
instabilities.
Index Terms-Elastic Center, Caster, Multibody Dynamics, ADAMS, Vehicle Dynamics.
1. INTRODUCTION
Suspension framework in its least difficult structure
may be considered as a linkage to permit the wheel to
move in respect to the body and some versatile
component to bolster loads while permitting that
movement. It is astructural assembly of springs, shock
absorbers (dampers) and control arms that connects a
vehicle to its wheels. In a running vehicle, the
suspension system keeps the passage comfortable and
isolated from road harshness, bumps, and vibrations. It
also provides the vehicle, good handling
characteristic,permitting the driver to keep up control
of the vehicle over harsh territory or in the event of
sudden stops. Also, the suspension framework keeps
the vehicle from harm. [1]
The Basically suspension framework comprises of
spring, damper and auxiliary parts conveying the
sprung mass (auto body). The springs retain effects
and give padding when a wheel hits an obstruction.
The springs additionally oppose the wheel's
development and bounce back, pushing the wheel
down, so to keep the control of vehicle by keeping the
wheels in contact with the street. Shock absorbers
(dampers) perform two functions. They absorb any
larger than average shocks generated by bumps in the
road so that the upward velocity of the wheel over the
bump is not transmitted to the car subframe and
eventually to driver or passenger. Secondly, they keep
the suspension at full as much as possible during the
travelling for the given road conditions, in brief, they
keep the wheels planted on the road. Due to the
criticality of suspension system performance related to
ride comfort and vehicle control and passenger safety,
the understanding of design variables and behavior of
suspension system in severe or harsh loading cases
should be well known and optimized. This report
analyzes the characteristic model of wishbone type
suspension system, with study the effects of low
profile tier on ride and handling of vehicle, low profile
tier provides very good high cornering performance
and inclination stiffness characteristics. As passenger
comfort is one of the prime criteria for performance
evaluation of suspension.
King pin inclination is the transverse angle of the
swivel axis of the front wheel and its stub axle. The
effect of the inclination is usually discussed in terms
of the king pin offset which determines the self-
centering torque when the steering is turned for
cornering. Although many cars have a positive value
of offset which tends to return the wheel to the straight
ahead position, some modern cars have a negative
offset to improve stability when the tire blows or the
brake fails on one front wheel.
Castor angle also introduces a self-centering torque
when the car is traveling forward. This is achieved by
the positive offset shown in the diagram where the
2. International Journal of Research in Advent Technology, Vol.3, No.1
Available online at
contact of the tire on the road trails
pin axis [2].
With present day auto outline it has turned out to be
more hard to see and grasp the connections of front
wheel directing geometry. Subsequently there are
favorable circumstances in using so as to consider the
set-up by using a one third scale model which is as
close as possible to the real construction found in a
large car. Nevertheless, the needs of experimentation
require some unusual variations like an adjustable stub
axle [3,4].
2. PROBLEM DEFINITION, AIM AND
OBJECTIVE
The demands on vehicle suspension performance
terms of both accurate wheel geometry control and
isolation – have increased steadily over the past
decade as the requirements of steering, handling and
styling have driven car makers toward ever
profile tire choices of a larger diameter
The lower the longitudinal stiffness of the suspension,
the greater the associated hub rotation under braking.
In the case of a front suspension, this gives potential
for excessive castor trail loss and attendant steering
instabilities for sedan vehicle.
2.1. Aim
While using low profile tire for font double wishbone
suspension system during braking reduce the castor
Fig.
International Journal of Research in Advent Technology, Vol.3, No.1
E-ISSN: 2321-9637
Available online at www.ijrat.org
contact of the tire on the road trails behind the king
With present day auto outline it has turned out to be
more hard to see and grasp the connections of front
Subsequently there are
g so as to consider the
a one third scale model which is as
close as possible to the real construction found in a
large car. Nevertheless, the needs of experimentation
require some unusual variations like an adjustable stub
AIM AND
The demands on vehicle suspension performance – in
terms of both accurate wheel geometry control and
have increased steadily over the past
decade as the requirements of steering, handling and
riven car makers toward ever-lower
file tire choices of a larger diameter.
The lower the longitudinal stiffness of the suspension,
the greater the associated hub rotation under braking.
In the case of a front suspension, this gives potential
e castor trail loss and attendant steering
While using low profile tire for font double wishbone
suspension system during braking reduce the castor
trail at the contact patch of tier and road and minimize
the hub rotation w.r.t wheel center for sedan vehicle.
2.2. Objective
Sections, sub-sections and sub
numbered in Italic. Use double spacing before all
section headings and single spacing after section
headings.
• To find the way for increase in longitudinal
stiffness of the suspension
• Investigate the new design of double wishbone
suspension system for effectively decoupling of
castor and longitudinal stiffness
• Maintain the suspension geometry kinematics as
same as traditional double wishbone suspension
for front.
• A better solution would be a suspension whose
longitudinal elastic center is moved
verticallydown from the wheel center to the
ground plane region.
• Analyze the new design by multibody dynamic
software like ADAMS/CAR
3. INDEPENDENT WHEEL SUSPENSION
GENERAL.
The chassis of a passenger car must be able to take the
installed engine power. Continually improving
acceleration, higher peak and cornering speeds, and
deceleration lead to significantly increased
requirements for safer chassis. Independent whee
Fig. 1. Caster, Camber and Kingpin [7]
International Journal of Research in Advent Technology, Vol.3, No.12, December 2015
76
trail at the contact patch of tier and road and minimize
wheel center for sedan vehicle.
sections and sub-subsections are
numbered in Italic. Use double spacing before all
section headings and single spacing after section
To find the way for increase in longitudinal
of the suspension
Investigate the new design of double wishbone
suspension system for effectively decoupling of
castor and longitudinal stiffness
Maintain the suspension geometry kinematics as
same as traditional double wishbone suspension
A better solution would be a suspension whose
longitudinal elastic center is moved
verticallydown from the wheel center to the
Analyze the new design by multibody dynamic
software like ADAMS/CAR
INDEPENDENT WHEEL SUSPENSION –
The chassis of a passenger car must be able to take the
installed engine power. Continually improving
acceleration, higher peak and cornering speeds, and
deceleration lead to significantly increased
requirements for safer chassis. Independent wheel
3. International Journal of Research in Advent Technology, Vol.3, No.1
Available online at
suspensions follow this trend. Their main advantages
are:
• A kinematic and/or elastokinematic toe
tending towards understeering is
• Easier steerability with existing drive
• Low weight
• No mutual wheel influence
The last two characteristics are important for good
road-holding, especially on bends with an uneven road
surface.
Transverse arms and trailing arms ensure the desired
kinematic behavior of the rebounding and jouncing
wheels and also transfer the wheel loadings to the
body (Fig. 2). Lateral forces also generate a moment
which, with unfavorable link arrangement, has the
disadvantage of reinforcing the roll of the body during
cornering. The suspension control arms require bushes
that yield under load and can also influence the
springing. This effect is either reinforced by twisting
the rubber parts in the bearing elements, or the
friction. The lateral cornering force FY,
Fig.
Fig.
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suspensions follow this trend. Their main advantages
A kinematic and/or elastokinematic toe-in change,
tending towards understeering is
Easier steerability with existing drive
mportant for good
holding, especially on bends with an uneven road
Transverse arms and trailing arms ensure the desired
kinematic behavior of the rebounding and jouncing
wheels and also transfer the wheel loadings to the
l forces also generate a moment
which, with unfavorable link arrangement, has the
disadvantage of reinforcing the roll of the body during
cornering. The suspension control arms require bushes
that yield under load and can also influence the
effect is either reinforced by twisting
ing elements, or the
The lateral cornering force FY,W,f causes the
reaction forces FY,E and FY,G in the links joining the
axle with the body. Moments are generated on both
the outside and the inside of the bend and these
adversely affect the roll pitch of the body. The
effective distance c between points E and G on a
double wishbone suspension should be as large as
possible to achieve small forces in the body and link
bearings and to limit the deformatio
elements fitted, which will impact on latral forces on
wheel hub. [4]
The outer independently suspended wheel takes on
positive camber εw,o and the inner wheel takes on a
negative camber εw,i. The ability of the ty
transfer the lateral forces FY,W,f,o or FY,W,f,i
decreases causing a greater required slip angle is the
proportion of the weight of the body over the front
axle and Fc,Bo,f , the centrifugal force acting at the
level of the center of gravity Bo. One
and the other bumps, i.e. this vehicle has ‘reciprocal
springing’, that is: FZ,W,f,o = FZ,W,f + FZ,W,f and
FZ,W,f,i = FZ,W,f – FZ,W,f
Fig. 2.Independent wheel suspensions [7]
Fig. 3.Body inclines by the angle φ during cornering [7]
International Journal of Research in Advent Technology, Vol.3, No.12, December 2015
77
reaction forces FY,E and FY,G in the links joining the
axle with the body. Moments are generated on both
outside and the inside of the bend and these
adversely affect the roll pitch of the body. The
effective distance c between points E and G on a
double wishbone suspension should be as large as
possible to achieve small forces in the body and link
nd to limit the deformation of the rubber
elements fitted, which will impact on latral forces on
The outer independently suspended wheel takes on
w,o and the inner wheel takes on a
w,i. The ability of the tyres to
transfer the lateral forces FY,W,f,o or FY,W,f,i
decreases causing a greater required slip angle is the
proportion of the weight of the body over the front
axle and Fc,Bo,f , the centrifugal force acting at the
level of the center of gravity Bo. One wheel rebounds
and the other bumps, i.e. this vehicle has ‘reciprocal
springing’, that is: FZ,W,f,o = FZ,W,f + FZ,W,f and
[7]
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78
Increases due to the parts rubbing together, and the
driving comfort decreases. The wheels incline with the
body (Fig.3). The wheel on the outside of the bend,
which has to absorb most of the lateral force, goes into
a positive camber and the inner wheel into a negative
camber, which reduces the lateral grip of the tyres. To
avoid this, the kinematic change of camber needs to be
adjusted to take account of this behavior.
4. DOUBLE WISHBONE SUSPENSIONS
The last two characteristics above are most easily
achieved using a double wishbone suspension (Fig.4).
This consists of two transverse links (control arms)
either side of the vehicle, which are mounted to rotate
on the frame, suspension subframe or body and, in the
case of the front axle, are connected on the outside to
the steering knuckle or swivel heads via ball joints.
The greater the effective distance c between the
transverse links (Fig. 2), the smaller the forces in the
suspension control arms and their mountings become,
i.e. component deformation is smaller and wheel
control more precise.
A cross-member serves as a subframe and is screwed
to the frame from below. Springs, bump/rebound-
travel stops, shock absorbers and both pairs of control
arms are supported at this force center. Only the anti-
roll bar, steering gear, idler arm and the tie-rods of the
lower control arms are fastened to the longitudinal
members of the frame. The rods have longitudinally
elastic rubber bushings at the front that absorb the
dynamic rolling hardness of the radial tires and reduce
lift on uneven road surfaces.
The main advantages of the double wishbone
suspension are its kinematic possibilities. The
positions of the suspension control arms relative to
one another – in other words the size of the angles α
and β – can determine both the height of the body roll
center and the pitch pole. Moreover, the different
wishbone lengths can influence the angle movements
Fig. 5. Response of a double wishbone front suspension to braking forces [9]
5. International Journal of Research in Advent Technology, Vol.3, No.12, December 2015
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79
Of the compressing and rebounding wheels, i.e. the
change of camber and, irrespective of this, to a certain
extent also the track width change. With shorter upper
suspension control arms the compressing wheels go
into negative camber and the rebounding wheels into
positive. This counteracts the change of camber
caused by the roll pitch of the body (Fig.3).
The response of a traditional double wishbone type
front suspension to braking forces is depicted in (Fig
5); the hub and steering axis rotation, loss of castor
trail and approximate elastic center location are all
apparent [8,9]. The lower the longitudinal stiffness of
the suspension, the greater the associated hub rotation
under braking. In the case of a front suspension, this
gives potential for excessive castor trail loss and
attendant steering instabilities. Traditionally, because
the castor and longitudinal stiffness are coupled.
So following are the designs already tried to achieving
this goal and there shortcoming to achieve this goal,
will discuss in brief only some actual production
designs only.
5. SUMMARY
Figures are to be inserted in the text nearest their first
reference. Figure placements can be either top or
bottom.
5.1. Advantage
• Design simplicity and reduced cost
• Because of the relevant separation of body joints,
forces exerted on the body are low in comparison
for example a low double wishbone suspension.
• Higher suspension stroke than in other
suspensions (a high double wishbone one for
example, because of the limitation on upper arm
length).
• Contained transversal dimension, due to the
absence of the upper arm; this fact is quite
beneficial for transversal engine installation.
• Possibility of designing with superior longitudinal
flexibility, without greatly affecting the caster
angle.
• Freedom in designing elasto-kinematic properties;
camber recovery is limited only by viable
positions for the upper pivot and lower arm fixed
joint.
• The ratio between suspension and shock absorber
stroke is near to one.Shock absorbers therefore
work well with limited loads, low oil heatingand
valve wear.
5.2. Disadvantage
• Lower performance in camber recovery. For
example, the comparison between camber angle
variation for a McPherson and a double wishbone
suspension, shown in Fig. 6
• Suspension characteristic geometry causes a
position for the upper pivot interface with the
body, usually called dome, which is usually far
removed from the stiffest structures of the body,
the side beams. This causes significant problems
with suppression of vibrations and noise from the
road.
• Shock absorber piston rod deformation can
increase friction and hysteresis.
• Notable height for the upper pivot, so that the
spring and shock absorber are set over the wheel;
this fact could degrade the vehicle’s aerodynamic
shape and sporty body style.
Fig. 4.Double Wishbone Suspension System [6]
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80
6. CONCLUSIONS
The demands on vehicle suspension performance – in
terms of both accurate wheel geometry control and
isolation – have increased steadily over the past
decade as the requirements of steering, handling and
styling have driven car makers toward ever-lower
profile tire choices of a larger diameter. Although the
high cornering and inclination stiffness characteristics
of these lower profile tires have benefited the steering
and yaw responses of the modern vehicle. The
associated increase in radial stiffness has reduced the
tire’s effectiveness as an isolator for ride comfort and
harshness.
However, this requirement for longitudinal
compliance has an unfortunate side-effect on hub
control when braking forces are applied to the
suspension system. The longitudinal elastic center of
most suspension types generally lies somewhere in the
region of the wheel center. Consequently, the hub
rotates when the suspension is subject to braking
forces, yet it remains relatively stiff when subject to
impact forces, which are resolved at the wheel center.
The lower the longitudinal stiffness of the suspension,
the greater the associated hub rotation under braking.
In the case of a front suspension, this gives potential
for excessive castor trail loss and attendant steering
instabilities [7].
All are above design show the wheel center is always
in close proximity of wheel center of front wheel
suspension system and co relation between
longitudinal compliances and castor compliances, this
will raise the need of the different suspension design
close to double wishbone suspension which control
the hub rotation and reduce castor trial
REFERENCES
[1] Wang, D. and Rui, Y, The Effects of Front
Suspension Parameters on Road Wheel Toe
Dynamics, SAE 2001 World Congress Detroit,
Michigan, 2001. pp. 3-8.
[2] MB Gerrard, Kinematic Suspension Linkages - A
Model for Their Behavior & a Procedure for
Their Design, SAE Technical Paper 2002-01-
0281, World Congress Detroit, Michigan. March
4-7, 2002. pp. 14-20.
[3] Pascali, L., Gabrielli, P., and Caviasso, G.,
Improving Vehicle Handling and Comfort
Performance Using 4WS, SAE 2003 World
Congress Detroit, Michigan March 3-6, 2003. pp.
4-9.
[4] Steven P. Fuja, Henry A. Schmid, and Joseph P.
Ryan, Synthesis of Chassis Parameters for Ride
and Handling on the 1997 Chevrolet Corvette,
International Congress & Exposition Detroit,
Michigan February 24-27, 1997. pp. 4-11.
[5] SAE, Surface Vehicle Recommended Practice-
J670e, REV JUL76, pp. 11-24
Fig. 6.Comparison between camber angle variation as a function of suspension stroke in a
McPherson and a double wishbone suspension; the difference produces a better camber
recovery in the double wishbone suspension. [5]
7. International Journal of Research in Advent Technology, Vol.3, No.12, December 2015
E-ISSN: 2321-9637
Available online at www.ijrat.org
81
[6] David A Croll, Automotive Engineering
Powertrain, Chassis System and Vehicle Body,
First edition, 2009, Butterworth-Heinemann Press
[7] Thomas D. Gillespie, Fundamentals of Vehicle
Dynamics,2nd ed, SAE inc. pp. 25-76
[8] MSC Software Corporation Ltd,MSC
Adams/Solver 2014 User Manual, pp 80-320
[9] MSC Software Corporation Ltd, MSC
Adams/Car 2014 User Manual, pp. 1-206