2000 DODGE NEON Service Repair Manual

SPECIFICATIONS in this section of this service
manual group.
(4) If the rear alignment is out of specification,
adjust it first before proceeding to the front.
CAMBER AND CASTER
Front and rear camber and caster settings on this
vehicle are determined at the time the vehicle is
designed, by the location of the vehicle's suspension
components. This is referred to as Net Build. The
result is no required adjustment of camber and
caster after the vehicle is built or when servicing the
suspension components. Thus, when performing a
wheel alignment, caster and camber are not normally
considered adjustable angles. Camber and caster
should be checked to ensure they meet vehicle speci-
fications.
If either front or rear camber is found not to meet
alignment specifications, it can be adjusted using an
available camber adjustment bolt package. Before
installing a camber adjustment bolt package on a
vehicle found to be outside the specifications, inspect
the suspension components for any signs of damage
or bending.
No adjustment can be made to the caster setting
on this vehicle. If the vehicle's caster is not within
alignment specifications, check for damaged suspen-
sion components or body parts.
CAUTION: Do not attempt to adjust the vehicles
wheel alignment by heating or bending any of the
suspension components.
CAMBER ADJUSTMENT BOLT PACKAGE INSTALLATION
NOTE: The following procedure should only be
used on vehicles without the ACR competition
package.
The camber adjustment bolt package contains new
bolts and nuts for attaching the strut clevis bracket
to the steering knuckle. The bolts contained in the
package are slightly undersize allowing for move-
ment between the strut clevis bracket and the steer-
ing knuckle. The movement allowed by the undersize
bolts provide approximately two degrees of camber
adjustment per side of the vehicle. To install and
adjust the camber adjustment bolt package, follow
the procedure below.
CAUTION: There are separate camber adjustment
bolt packages for the front and rear of the vehicle.
Be sure to use the correct package.
(1) Raise the vehicle until its tires are not support-
ing the weight of the vehicle.CAUTION: The knuckle to strut assembly attaching
bolt shanks are serrated and must not be turned
during removal. Remove the nuts while holding the
bolts stationary.
(2) Remove the original upper bolt attaching the
strut clevis bracket to the knuckle (Fig. 2) (Fig. 3).
(3) Install a bolt from the adjustment package into
the hole where the original bolt was removed. Install
the bolt from the rear.
Fig. 2 Front Strut Clevis Bracket Attaching Bolts
1 ± STRUT CLEVIS BRACKET
2 ± STRUT CLEVIS BRACKET TO STEERING KNUCKLE
ATTACHING BOLTS
3 ± STEERING KNUCKLE
4 ± LOOSEN THIS BOLT
5 ± REMOVE AND REPLACE THIS BOLT
Fig. 3 Rear Strut Clevis Bracket Attaching Bolts
1 ± KNUCKLE
2 ± STRUT ASSEMBLY CLEVIS BRACKET
3 ± CLEVIS BRACKET TO KNUCKLE ATTACHING BOLTS
2 - 6 SUSPENSIONPL
SERVICE PROCEDURES (Continued)

(4) Install a nut provided in adjustment package
on the replacement bolt. Tighten the nut until it's
snug, but still allowing the knuckle to slide in the
clevis bracket.
(5) Remove the original lower bolt.
(6) Install a bolt from the adjustment package into
the bottom hole of the strut clevis bracket. Install the
bolt from the rear.
(7) Install a nut provided in adjustment package
on the replacement bolt. Tighten the nut until it's
snug.
(8) Reinstall the tire and wheel assembly.
(9) Perform the above procedure to any of the
remaining struts as required.
(10) Lower the vehicle and jounce the front and
rear of the vehicle.
(11) Adjust the front or rear camber to the pre-
ferred setting by pushing or pulling on the top of the
tire. When camber is set to specifications, tighten the
upper and lower strut clevis bracket bolts. Again
jounce the front and rear of the vehicle, then verify
the camber settings.
(12) Torque front strut clevis bracket-to-steering
knuckle attaching bolts to 53 N´m (40 ft. lbs.), plus
an additional 1/4 turn after the torque is met. Torque
the rear strut clevis bracket-to-rear knuckle attach-
ing bolts to 95 N´m (70 ft. lbs.).
(13) Once camber is within specifications, adjust
toe to meet the preferred specification setting. Refer
to TOE within this wheel alignment service proce-
dure.
TOE
(1) Center the steering wheel and lock it in place
using a steering wheel clamp.
NOTE: When performing the toe setting procedure,
make sure the rear toe is set to the preferred spec-
ification before setting the front toe to the preferred
specification.
REAR TOE
(1) Loosen the nuts on the left and right rear lat-
eral link attaching bolts at the rear crossmember as
necessary to allow rotation of the rear toe adjustment
cams (Fig. 4).CAUTION: When adjusting rear toe, the notches on
the toe adjustment cams are not to be facing down.
The notches in the adjustment cams are only to be
facing up or toward one side.
(2) Rotate each toe adjustment cam until the pre-
ferred rear toe specification is obtained (Fig. 4). Refer
to WHEEL ALIGNMENT SPECIFICATIONS in this
section of this service manual group.
(3) While holding the toe adjustment cams from
turning, tighten the attaching bolt nuts. This will
securely hold the adjustment cams in position.
Tighten the attaching bolt nuts to a torque of 88 N´m
(65 ft. lbs.).
(4) Proceed to FRONT TOE to set the front toe.
FRONT TOE
CAUTION: Do not twist the inner tie rod-to-steering
gear rubber boots while turning the inner tie rod
during the front toe adjustment.
(1) Loosen the tie rod adjusting jam nuts (Fig. 5).
Grasp each inner tie rod at its hex and rotate it one
way or the other until the front wheel toe is set to
the preferred specification. Refer to WHEEL ALIGN-
MENT SPECIFICATIONS in this section of this ser-
vice manual group.
Fig. 4 Adjustment Cams
1 ± BOLTS
2 ± ADJUSTMENT CAMS
3 ± NUTS
PLSUSPENSION 2 - 7
SERVICE PROCEDURES (Continued)

(2) Tighten tie rod adjusting jam nuts to a torque
of 75 N´m (55 ft. lbs.).
(3) Make sure the inner tie rod-to-steering gear
rubber boots are not twisted. If twisted, loosen the
boot clamp at the inner tie rod and move the boot as
necessary.
(4) Remove steering wheel clamp.
(5) Remove the alignment equipment.
(6) Road test the vehicle to verify the steering
wheel is straight and the vehicle does not pull or
wander.
SPECIFICATIONS
WHEEL ALIGNMENT SPECIFICATIONS
NOTE: All specifications are given in degrees.
NOTE: All wheel alignments are to be set with the
vehicle at curb height. Refer to CURB HEIGHT MEA-
SUREMENT in SERVICE PROCEDURES.
FRONT WHEEL ALIGNMENT PREFERRED SETTING ACCEPTABLE RANGE
CAMBER 0.00É -0.40É to +0.40É
Cross Camber (Maximum
Side-To-Side Difference)0.00É 0.50
CASTER +2.60É +1.60É to +3.60É
Cross Caster (Maximum Side-To-
Side Difference)0.00É 1.00É
TOTAL TOE* +0.10É þ0.10É to +0.30É
REAR WHEEL ALIGNMENT PREFERRED SETTING ACCEPTABLE RANGE
CAMBER -0.25É -0.65É to +0.15É
TOTAL TOE* +0.30É +0.10É to +0.50É
THRUST ANGLE 0.00É -0.10É to +0.10É
Note:
* TOTAL TOE is the sum of both the left and right wheel toe settings. TOTAL TOE must be equally split between
each front wheel to ensure the steering wheel is centered after setting toe. Positive toe (+) is toe-in and negative
toe (þ) is Toe-out.
Fig. 5 Jam Nuts
1 ± OUTER TIE ROD
2 ± INNER TIE ROD HEX
3 ± JAM NUT
2 - 8 SUSPENSIONPL
SERVICE PROCEDURES (Continued)

FRONT SUSPENSION
TABLE OF CONTENTS
page page
DESCRIPTION AND OPERATION
FRONT SUSPENSION SYSTEM...............9
STRUT ASSEMBLY (FRONT)................11
STEERING KNUCKLE.....................11
LOWER CONTROL ARM...................11
STABILIZER BAR (FRONT).................12
DIAGNOSIS AND TESTING
STRUT ASSEMBLY (FRONT)................12
STEERING KNUCKLE.....................13
WHEEL BEARING AND HUB................13
LOWER CONTROL ARM...................13
BALL JOINT.............................13
STABILIZER BAR (FRONT).................14
SERVICE PROCEDURES
LUBRICATION...........................14
REMOVAL AND INSTALLATION
SERVICE WARNINGS AND CAUTIONS........14STRUT ASSEMBLY (FRONT)................14
STEERING KNUCKLE.....................15
LOWER CONTROL ARM...................18
STABILIZER BAR (FRONT).................20
WHEEL MOUNTING STUD (FRONT)..........21
DISASSEMBLY AND ASSEMBLY
STRUT ASSEMBLY (FRONT)................22
STEERING KNUCKLE (WHEEL BEARING AND
HUB).................................25
LOWER CONTROL ARM (BALL JOINT)........29
LOWER CONTROL ARM (REAR ISOLATOR
BUSHING).............................31
SPECIFICATIONS
FRONT SUSPENSION FASTENER TORQUE
SPECIFICATIONS.......................33
SPECIAL TOOLS
FRONT SUSPENSION.....................33
DESCRIPTION AND OPERATION
FRONT SUSPENSION SYSTEM
The front suspension allows each front wheel on a
vehicle to adapt to different road surfaces and condi-
tions without greatly affecting the opposite wheel
and the ability to control the vehicle. Each side of the
front suspension is allowed to pivot so the vehicle can
be steered in the direction preferred.
This vehicle has a gas pressurized MacPherson
strut type front suspension design (Fig. 1).A strut assembly is used in place of the front sus-
pension upper control arm and upper ball joint.
When a vehicle strikes a bump, the force is trans-
ferred through the hub, bearing, and knuckle, into
the strut assembly to absorb the force and dampen it.
The top of the strut is mounted directly to the strut
tower of the vehicle. During steering maneuvers, the
strut assembly (through a pivot bearing in the upper
strut mount) and steering knuckle (through the lower
ball joint mounted on the lower control arm) turn as
an assembly.
PLSUSPENSION 2 - 9

Fig. 1 Front Suspension System
2 - 10 SUSPENSIONPL
DESCRIPTION AND OPERATION (Continued)

For more information on the description and oper-
ation of an individual component, refer to the appli-
cable component heading in this section.
STRUT ASSEMBLY (FRONT)
A Macpherson type design strut assembly is used
in place of the front suspension upper control arm
and upper ball joint (Fig. 1). The bottom of the strut
mounts directly to the steering knuckle using 2
attaching bolts and nuts going through the strut cle-
vis bracket and steering knuckle. The top of the strut
mounts directly to the strut tower of the vehicle
using the three threaded studs on the strut assem-
blies upper mount. During steering maneuvers, the
strut assembly (through a pivot bearing in the upper
strut mount) and steering knuckle (through the lower
ball joint) turn as an assembly. The strut assembly is
used to dampen the front suspension and smooth the
ride of the vehicle.
The strut assembly includes the following compo-
nents: A rubber isolated upper mount, an upper
spring seat and bearing, a dust shield, a jounce
bumper, a coil spring, a lower spring isolator and a
strut (Fig. 1). Each component is serviced by remov-
ing the strut assembly from the vehicle and disas-
sembling it.
COIL SPRING
The strut and front suspension of the vehicle is
supported by coil springs positioned around the
upper half of each strut. The springs are contained
between the upper and the lower seats of the strut
assembly.
Coil springs are rated separately for each corner or
side of the vehicle depending on optional equipment
and type of vehicle service. During service procedures
of the strut assembly, if both springs are removed,
mark the springs to ensure installation in its original
position.
NOTE: If a coil spring requires replacement, be
sure that it is replaced with a spring meeting the
correct load rating for the vehicle and its specific
options.
STEERING KNUCKLE
The steering knuckle is a single casting with legs
machined for attachment to the front strut assembly
on the top and the lower control arm ball joint on the
bottom (Fig. 1). The steering knuckle also has
machined abutments on the casting to support and
align the front brake caliper assembly.
WHEEL BEARING AND HUB
The knuckle also supports the wheel bearing and
hub (Fig. 1). The wheel hub is pressed into a sealed
for life wheel bearing that is pressed into the steer-
ing knuckle. A retainer plate also holds it in place.
The hub supports the driveshaft outer constant veloc-
ity (C/V) joint. Each is splined and meshes in the
center of the hub. The outer C/V joint is retained to
the hub using a nut. The nut is held on the outer C/V
stub shaft using a nut retainer and cotter pin.
The wheel bearing is a Unit 1 type cartridge bear-
ing that requires no maintenance. The wheel bearing
is serviced separately from the hub.
LOWER CONTROL ARM
There is one lower control arm on each side of the
vehicle. Each lower control arm is a stamped steel
unit using rubber isolated pivot bushings to isolate it
from the front suspension crossmember and frame of
the vehicle (Fig. 1). The rear bushing can be serviced
separately.
The front of the lower control arm is bolted to the
front crossmember using a bolt through the center of
the rubber pivot bushing. The rear of the lower con-
trol arm is mounted to both the front crossmember
and the frame rail of the vehicle using a thru-bolt.
The thru-bolt goes through both the crossmember
and rear lower control arm bushing, threading
directly into the frame rail of the vehicle.
The left and right lower control arms are intercon-
nected through a linked rubber isolated stabilizer
bar.
The outboard end of each lower control arm con-
nects to the steering knuckle using a ball joint.
1 ± VEHICLE STRUT TOWER
2 ± OUTER TIE ROD
3 ± STEERING GEAR
4 ± STRUT ASSEMBLY
5 ± JAM NUT
6 ± LOWER CONTROL ARM
7 ± CROSSMEMBER
8 ± BALL JOINT
9 ± STABILIZER BAR
10 ± STABILIZER BAR CUSHION AND RETAINER11 ± STABILIZER BAR LINK
12 ± HUB
13 ± KNUCKLE
14 ± STRUT
15 ± LOWER SPRING ISOLATOR
16 ± COIL SPRING
17 ± JOUNCE BUMPER
18 ± DUST SHIELD
19 ± SPRING SEAT AND BEARING
20 ± UPPER MOUNT
PLSUSPENSION 2 - 11
DESCRIPTION AND OPERATION (Continued)

BALL JOINT
The lower control arm connects to the steering
knuckle through a ball joint mounted at the outboard
end of the arm (Fig. 1). The ball joint is pressed into
the lower control arm and has a non-tapered stud
with a notch for steering knuckle pinch bolt clear-
ance. The ball joint stud is clamped and locked to the
steering knuckle lower leg using a pinch bolt.
The ball joint is lubricated for life during the man-
ufacturing process. Once lubricated for life, the
grease fitting head is snapped off by the manufac-
turer. This is done to eliminate the possibility of
lubrication later in the ball joints life thus damaging
the non-vented ball joint seal boot.
The ball joint used on this vehicle is replaceable
and, if found defective, can be serviced as a separate
component of the lower control arm.
STABILIZER BAR (FRONT)
The stabilizer bar helps control vehicle body roll.
Jounce and rebound movements affecting one wheel
are partially transmitted to the opposite wheel of the
vehicle to stabilize body roll.
The stabilizer bar interconnects both front lower
control arms of the vehicle and is attached to the
front suspension crossmember (Fig. 1).
Attachment of the stabilizer bar to the front sus-
pension crossmember is through 2 rubber-isolator
cushion and retainers (Fig. 1). The stabilizer bar
attachment to the lower control arm is done by uti-
lizing an isolated stabilizer bar link at each arm. All
components of the stabilizer bar are serviceable.
DIAGNOSIS AND TESTING
STRUT ASSEMBLY (FRONT)
Inspect the strut assembly for the following condi-
tions (Fig. 3):
²Inspect for a damaged or broken coil spring.
²Inspect for a torn or damaged strut assembly
dust shield.²Lift the dust shield and inspect the strut assem-
bly for evidence of fluid running from the upper end
of the strut fluid reservoir. (Actual leakage will be a
stream of fluid running down the side and dripping
off lower end of unit.) A slight amount of seepage
between the strut shaft and strut shaft seal is not
unusual and does not affect performance of the strut
assembly.
²Lift the dust shield and inspect the jounce
bumper for signs of damage or deterioration.
²Inspect the clearance between the shock tower
and the coil spring. Make sure no fasteners are pro-
truding through the shock tower possibly contacting
the coil spring and strut. Because of the minimum
clearance in this area (Fig. 2), installation of metal
fasteners could damage the coil spring coating and
lead to a corrosion failure of the spring.
CAUTION: At no time when servicing a vehicle can
a sheet metal screw, bolt or other metal fastener be
installed into the shock tower to take the place of
an original plastic clip. Also, do not drill holes into
the front shock tower for the installation of any
metal fasteners into the shock tower area indicated
(Fig. 2).
Fig. 2 Shock Tower Area (Typical)
1 ± SHOCK TOWER
2 ± COIL SPRING
3 ± NO SHEET METAL SCREWS, BOLTS, OR ANY OTHER
METAL FASTENERS ARE TO BE INSTALLED INTO SHOCK
TOWER IN THIS AREA. ALSO, NO HOLES ARE TO BE
DRILLED INTO SHOCK TOWER IN THIS SAME AREA.
2 - 12 SUSPENSIONPL
DESCRIPTION AND OPERATION (Continued)

STEERING KNUCKLE
The front suspension steering knuckle is not a
repairable component of the front suspension. It
must be replaced if found to be damaged in any way.
If it is determined that the steering knuckle is bent
when servicing the vehicle, no attempt is to be made
to straighten the steering knuckle.
WHEEL BEARING AND HUB
The wheel bearing is designed for the life of the
vehicle and requires no type of periodic maintenance.
The following procedure may be used for diagnosing
the condition of the wheel bearing and hub.
With the wheel, disc brake caliper, and brake rotor
removed, rotate the wheel hub. Any roughness or
resistance to rotation may indicate dirt intrusion or a
failed hub bearing. If the bearing exhibits any of
these conditions during diagnosis, the hub bearing
will require replacement. The bearing is not service-
able.Damaged bearing seals and the resulting excessive
grease loss may also require bearing replacement.
Moderate grease weapage from the bearing is consid-
ered normal and should not require replacement of
the wheel bearing.
To diagnose a bent hub, refer to BRAKE ROTOR in
the DIAGNOSIS AND TESTING section in the
BRAKES service manual group for the procedure on
measuring hub runout.
LOWER CONTROL ARM
Inspect the lower control arm for signs of damage
from contact with the ground or road debris. If the
lower control arm shows any sign of damage, look for
distortion. Do not attempt to repair or straighten a
broken or bent lower control arm. If damaged, the
lower control arm stamping is serviced only as a
complete component.
The serviceable components of the lower control
arm are: the ball joint, the ball joint grease seal and
the lower control arm rear isolator bushing.
Inspect both lower control arm isolator bushings
for severe deterioration and replace as required.
Inspect the ball joint per the inspection procedure in
this section of the service manual and replace as
required. Refer to BALL JOINT in this section of this
service manual group.
BALL JOINT
With the weight of the vehicle resting on the road
wheels, grasp the headless grease fitting as shown
(Fig. 4). With no mechanical assistance or added
force, attempt to move the grease fitting. If the ball
joint is worn, the grease fitting will move. If move-
ment is noted, replace the ball joint.
Fig. 3 Strut Assembly
1 ± NUT
2 ± STRUT ASSEMBLY
3 ± STRUT
4 ± LOWER SPRING ISOLATOR
5 ± COIL SPRING
6 ± JOUNCE BUMPER
7 ± DUST SHIELD
8 ± SPRING SEAT AND BEARING (WITH SPRING ISOLATOR)
9 ± UPPER MOUNT
Fig. 4 Checking Ball Joint Wear
1 ± BALL JOINT
2 ± HEADLESS GREASE FITTING
PLSUSPENSION 2 - 13
DIAGNOSIS AND TESTING (Continued)