steering wheel adjustment CHRYSLER VOYAGER 1996 Service Manual

SUSPENSION
CONTENTS
page page
FRONT SUSPENSION...................... 9
REAR SUSPENSION...................... 38WHEEL ALIGNMENT....................... 1
WHEEL ALIGNMENT
INDEX
page page
DESCRIPTION AND OPERATION
GENERAL INFORMATION.................. 1
DIAGNOSIS AND TESTING
PRE-WHEEL ALIGNMENT INSPECTION....... 4
SUSPENSION AND STEERING DIAGNOSIS.... 3SERVICE PROCEDURES
WHEEL ALIGNMENT CHECK AND
ADJUSTMENT PROCEDURE.............. 4
SPECIFICATIONS
ALIGNMENT SPECIFICATIONS.............. 7
DESCRIPTION AND OPERATION
GENERAL INFORMATION
Wheel alignment is the proper adjustment of all
the interrelated suspension angles affecting the run-
ning and steering of the front and rear wheels of the
vehicle.
The method of checking front and rear wheel align-
ment will vary depending on the type of equipment
being used. The instructions furnished by the manu-
facturer of the equipment should always be followed.
With the exception that the wheel alignment specifi-cations recommended by Chrysler Corporation should
always be used. The Chrysler Corporation recom-
mended alignment specifications, are listed in Speci-
fications at the end of this group in the service
manual section.
There are six basic factors which are the founda-
tion to front wheel alignment. These are vehicle
height, caster, camber, toe-in, steering axis inclina-
tion and toe-out on turns. Of the six basic factors
only toe-in is normally mechanically adjustable on
this vehicle (Fig. 1).
NSSUSPENSION 2 - 1

Camber adjustment is allowed in the event that a
vehicle is involved in an accident and after repairs
are made meeting manufacturers tolerance specifica-
tions, the camber setting will not meet manufactur-
ers specifications. If camber adjustment is required,
refer to the following Service Camber Adjustment
Procedure for the required steps to be followed.
CAUTION: Do not attempt to modify any suspen-
sion or steering components to meet vehicle align-
ment specifications, by heating and or bending.
Alignment checks and adjustments should be made
in the following sequence.
(1) Camber
(2) ToeCamberis the number of degrees the top of the
wheel and tire assembly is tilted inboard or outboard
from a true vertical line. Inboard tilt is negative cam-
ber. Outboard tilt is positive camber (Fig. 1).
Excessive camber is a tire wear factor: negative
camber causes wear on the inside of the tires tread
surface, while positive camber causes wear to the
outside of the tires tread surface. See Front Wheel
Drive Specifications forCamber.settings.
To eis measured in degrees or inches and is the
distance the front edges of the tires are closer (or far-
ther apart) than the rear edges. See Front Wheel
Drive Specifications forToe.settings.
Fig. 1 Front Suspension Alignment Angles
2 - 2 SUSPENSIONNS
DESCRIPTION AND OPERATION (Continued)

CONDITION POSSIBLE CAUSES CORRECTION
Road Wander 1. Incorrect tire pressure 1. Inflate tires to recommended
pressure
2. Incorrect front or rear wheel toe 2. Check and reset wheel toe
3. Worn wheel bearings 3. Replace wheel bearing
4. Worn control arm bushings 4. Replace control arm bushing
5. Excessive friction in steering gear 5. Replace steering gear
6. Excessive friction in steering shaft
coupling6. Replace steering coupler
7. Excessive friction in strut upper
bearing7. Replace strut bearing
Lateral Pull 1. Unequal tire pressure 1. Inflate all tires to recommended
pressure
2. Radial tire lead 2. Perform lead correction procedure
3. Incorrect front wheel camber 3. Check and reset front wheel
camber
4. Power steering gear imbalance 4. Replace power steering gear
5. Wheel braking 5. Correct braking condition causing
lateral pull
Excessive Steering Free Play 1. Incorrect Steering Gear Adjustment 1. Adjust Or Replace Steering Gear
2. Worn or loose tie rod ends 2. Replace or tighten tie rod ends
3. Loose steering gear mounting bolts 3. Tighten steering gear bolts to
specified torque
4. Loose or worn steering shaft
coupler4. Replace steering shaft coupler
Excessive Steering Effort 1. Low tire pressure 1. Inflate all tires to recommended
pressure
2. Lack of lubricant in steering gear 2. Replace steering gear
3. Low power steering fluid level 3. Fill power steering fluid reservoir to
correct level
4. Loose power steering pump drive
belt4. Correctly adjust power steering
pump drive belt
5. Lack of lubricant in ball joints 5. Lubricate or replace ball joints
6. Steering gear malfunction 6. Replace steering gear
7. Lack of lubricant in steering
coupler7. Replace steering coupler
PRE-WHEEL ALIGNMENT INSPECTION
Before any attempt is made to change or correct
the wheel alignment factors. The following part
inspection and the necessary corrections should be
made to those parts which influence the steering of
the vehicle.
(1) Check and inflate all tires to recommended
pressure. All tires should be the same size and in
good condition and have approximately the same
wear. Note the type of tread wear which will aid in
diagnosing, see Wheels and Tires, Group 22.
(2) Check front wheel and tire assembly for radial
runout.
(3) Inspect lower ball joints and all steering link-
age for looseness.
(4) Check for broken or sagged front and rear
springs.(5) Check vehicle ride height to verify it is within
specifications.
(6) AlignmentMUSTonly be checked after the
vehicle has the following areas inspected and or
adjusted. Recommended tire pressures, full tank of
fuel, no passenger or luggage compartment load and
is on a level floor or a properly calibrated alignment
rack.
SERVICE PROCEDURES
WHEEL ALIGNMENT CHECK AND ADJUSTMENT
PROCEDURE
CASTER AND CAMBER
Front suspension Caster and Camber settings on
this vehicle are determined at the time the vehicle is
designed. This is done by determining the precise
2 - 4 SUSPENSIONNS
DIAGNOSIS AND TESTING (Continued)

mounting location of the vehicle's suspension compo-
nents throughout the design and assembly processes
of the vehicle. This is called a Net Build vehicle and
results in no normal requirement to adjustment the
Caster and Camber after a vehicle is built or when
servicing the suspension components. Thus Caster
and Camber are not normally considered an adjust-
able specification when performing an alignment on
this vehicle. Though Caster and Camber are not
adjustable they should be checked during the align-
ment procedure to ensure they meet the manufactur-
ers specifications.
If front camber does not meet the vehicle align-
ment specifications, it can be adjusted using a Mopar
Service Kit developed to allow for camber adjust-
ment. If a vehicle's front camber does not meet
required specifications, the vehicles suspension com-
ponents should be inspected for any signs of damage
or bending and the vehicle ride height should be
checked to verify it is within required specification.
This inspection must be done before using the
Mopar Service Kit for setting camber to the
vehicle specification.
CAUTION: Do not attempt to adjust the vehicles
Caster or Camber by heating, bending or by per-
forming any other modification to the vehicle's front
suspension components.
(1) Correctly position the vehicle on the alignment
rack. Then install all required alignment equipment
on the vehicle, per the alignment equipment manu-
facturers specifications.
NOTE: Prior to reading each alignment specifica-
tion, front and rear of vehicle should be jounced an
equal number of times. Induce jounce (rear first
then front) by grasping center of bumper and jounc-
ing each end of vehicle an equal number of times.
Bumper should always be released when vehicle is
at the bottom of the jounce cycle.
(2) Correctly jounce vehicle and then read the
vehicle's current front and rear alignment settings.
Compare the vehicle's current alignment settings to
the vehicle specifications for camber, caster and Toe-
in. See Alignment Specifications in this group of the
service manual for the required specifications.If
front and rear camber readings are within
required specifications proceed to step Step 3
for the Toe-in adjustment procedure if
required. If Camber readings are not within
specifications refer to step Step 1 in the front
camber adjustment cam bolt adjustment proce-
dure.CAMBER ADJUSTMENT CAM BOLT PACKAGE INSTALLATION
PROCEDURE
(1) If the front camber readings obtained are not
within the vehicle's specifications, use the following
procedure and the Mopar Clevis Bolt Service Kit to
provide camber adjustment. The kit contains 2 flange
bolts, 2 cam bolts, and 2 dog bone washers. These
components of the service kit are necessary to assem-
ble the strut to the steering knuckle, after modifica-
tion of the strut clevis bracket.
(2) Verify that the strut and steering knuckle are
not bent or otherwise damaged. If either component
is bent or show other signs of damage, replace
required component(s) and check the camber setting
again. Refer to Strut Damper Assembly Service in
this group of the service manual for the required
strut replacement procedure.
(3) If no component is bent or damaged, use the
following procedure for modifying the strut clevis
bracket and adjusting the camber setting.
(4) Raise front of vehicle until tires are not sup-
porting the weight of the vehicle. Then remove wheel
and tire assembly from the location on the vehicle
requiring the strut to be modified.
CAUTION: When removing the steering knuckle
from the strut clevis bracket, do not put a strain on
the brake flex hose. Also, do not let the weight of
the steering knuckle assembly be supported by the
brake flex hose when removed from the strut
assembly. If necessary use a wire hanger to sup-
port the steering knuckle assembly or if required
remove the brake flex hose from the caliper assem-
bly.
CAUTION: The steering knuckle strut assembly
attaching bolts are serrated and must not be turned
during removal. Remove nuts while holding bolts
stationary in the steering knuckles.
(5) Remove the top and bottom, strut clevis
bracket to steering knuckle attaching bolts (Fig. 2)
and discard. Separate the steering knuckle from the
strut clevis bracket and position steering knuckle so
it is out of the way of the strut.
CAUTION: When slotting the bottom mounting
hole on the strut clevis bracket, do not enlarge the
hole beyond the indentations (Fig. 3) on the sides
of the strut clevis bracket.
NSSUSPENSION 2 - 5
SERVICE PROCEDURES (Continued)

(11) When vehicle is at correct camber setting
torque both front strut to steering knuckle attaching
bolts to 90 N´m (65 ft. lbs.) plus an additional 1/4
turn after required torque is met.
(12) If Toe readings obtained are not within the
required specification range, adjust Toe to meet the
preferred specification setting. Toe is adjustable
using the following Toe setting procedure.
FRONT TOE SETTING PROCEDURE
(1) Prepare vehicle as described in the Pre-Align-
ment Vehicle Inspection procedure.
(2) Center steering wheel and lock in place using a
steering wheel clamp.
CAUTION: Do not twist front inner tie rod to steer-
ing gear rubber boots during front wheel Toe
adjustment.(3) Loosen front inner to outer tie rod end jam
nuts (Fig. 7). Grasp inner tie rods at serrations and
rotate inner tie rods of steering gear (Fig. 7) to set
front Toe to the preferred Toe specification. See
Alignment Specifications in this group of the service
manual for preferred specification.
(4) Tighten tie rod jam nuts (Fig. 7) to 75 N´m (55
ft.lbs.) torque.
(5) Adjust steering gear to tie rod boots at tie rod.
(6) Remove steering wheel clamp.
SPECIFICATIONS
ALIGNMENT SPECIFICATIONS
All alignment specifications are to be checked and
adjusted with the vehicle at its correct ride height.
Refer to the ride height specifications listed in the
following alignment specifications chart.
Fig. 6 Camber Adjustment Cam Bolt
Fig. 7 Front Wheel Toe Adjustment
NSSUSPENSION 2 - 7
SERVICE PROCEDURES (Continued)

* Camber is adjustable using the Mopar Camber Adjustment Service Kit. Refer to the Mopar
Parts Catalog for the required service kit part number.
** Caster is not adjustable. If found to be out of specification check for proper ride heights and
damaged/worn out suspension components and replace as necessary.
*** Toe-In is positive.
**** Toe, Camber and thrust angle are not adjustable. If found to be out of specification check for
proper ride heights and damaged/worn out suspension components and replace as necessary.
***** When Measuring ride heights: 1) Ensure that the tire pressures are correct. 2) Jounce the vehicle at the
bumper several times and release at the bottom of the stroke. 3) Measure from the ground to the outboard, lower,
center section of the fender wheel well opening. Ride heights are not adjustable. If found to be out of specification
check for damaged and/or worn out suspension components and replace as necessary.
ALIGNMENT ANGLE TIRE SIZES TIRE SIZES ALTERNATIVE FUELS
P205/75/R14 P205/75/R15 C.N.G.
P215/65/R15 P215/65/R16 ELECTRIC
* FRONT INDIVIDUAL CAMBER IN
DEGREES............................................+0.15É +or- 0.40É +0.05É +or- 0.40É +0.15É +or- 0.40É
Front Side To Side Camber
Difference Not To Exceed...................0.00É - 0.50É MAX 0.00É - 0.50É MAX 0.00É - 0.50É MAX
** FRONT INDIVIDUAL CASTER IN
DEGREES............................................+1.40É + or - 1.00É +1.40É + or - 1.00É +1.40É +or- 1.00É
Front Side To Side Caster Difference
Not To
Exceed.....................................0.00É - 1.00É MAX 0.00É - 1.00É MAX 0.00É - 1.00É MAX
*** FRONT INDIVIDUAL TOE
RIGHT/
LEFT.........................................+0.05É+or- 0.10É +0.05É +or- 0.10É +0.05É +or- 0.10É
FRONT TOTAL
TOE....................................................
Specified In Degrees+0.10É +or- 0.20É +0.10É +or- 0.20É +0.10É +or- 0.20É
FRONT SIDE TO SIDE TOE
DIFFERENTIAL.....................................0.00É - 0.06É MAX 0.00É - 0.06É MAX 0.00É - 0.06É MAX
****REAR INDIVIDUAL CAMBER IN
DEGREES............................................+0.00É +or- 0.25É +0.00É +or- 0.25É -0.10É +or- 0.25
REAR INDIVIDUAL TOE RIGHT/
LEFT........................................0.00É +or- 0.40É 0.00É +or- 0.40É 0.00É +or- 0.40É
**** REAR TOTAL TOE.....................
Specified In Degrees
TOE OUT: When Backed On
Alignment Rack Is TOE In When
Driving0.00É +or- 0.40É 0.00É +or- 0.40É 0.00É +or- 0.40É
****REAR THRUST ANGLE................ 0.00É +or- 0.30É 0.00É +or- 0.30É 0.00É +or- 0.30É
STEERING WHEEL
ANGLE................0.00É +or- 2.50É 0.00É +or- 2.50É 0.00É +or- 2.50É
FRONT RIDE HEIGHT (MEASURED
AT TOP OF FENDER WHEEL
OPENING)............................................747.5 mm +or-10.0mm 753.5 mm +or-10.0mm 783.5 mm +or-10.0mm
FRONT RIDE HEIGHT SIDE TO
SIDE
DIFFERENTIAL.....................................0.0 mm 12.5 mm MAX 0.0 mm 12.5 mm MAX 0.0 mm 12.5 mm MAX
*****REAR RIDE HEIGHT
(MEASURED AT TOP OF FENDER
WHEEL
OPENING)............................................766.0 mm +or-10.0mm 772.0 mm +or-10.0mm 802.5 mm +or-10.0mm
*****REAR RIDE HEIGHT SIDE TO
SIDE
DIFFERENTIAL.....................................0.0 mm 12.5 mm MAX 0.0 mm 12.5 mm MAX 0.0 mm 12.5 mm MAX
2 - 8 SUSPENSIONNS
SPECIFICATIONS (Continued)

Mc PHERSON STRUT ASSEMBLY
The front suspension of the vehicle is supported by
coil springs positioned around the strut assembly.
The springs are contained between an upper seat,
located just below the top strut mount assembly and
a lower spring seat on the strut fluid reservoir.
The top of each strut assembly is bolted to the
upper fender reinforcement (strut tower) through a
rubber isolated mount.
The bottom of the strut assembly attaches to the
steering knuckle with two through bolts. Caster is a
fixed setting on all vehicles and is not adjustable
when an alignment is performed. In the event the
camber setting on a vehicle requires adjustment, a
service strut is available which will provide a method
by which the camber can be adjusted.
The strut assemblies on this vehicle are inter-con-
nected by the front stabilizer bar through 2 link
assemblies attaching the struts to the stabilizer bar.
STEERING KNUCKLE
The steering knuckle (Fig. 1) is a single casting
with legs machined for attachment of the strut
damper, steering linkage, disc brake caliper, and
lower control arm ball joint. The steering knuckle
also has the front hub/bearing assembly mounted to
it. The hub is positioned through the bearing and
knuckle, with the constant velocity stub shaft splined
through the hub.
LOWER CONTROL ARM
The lower control arm is an iron casting. The lower
control arm is mounted to and isolated from the body
of the vehicle using 2 types of rubber bushings. The
front lower control arm bushing is the spool type and
is pressed into the lower control arm, while the rear
uses a bushing that is pushed over a stem on the
lower control arm. The front and rear of the lower
control arm is mounted to the cast crossmemberusing a pivot bolt through the center of the front
pivot bushing, and a retainer which traps the rear
bushing in the crossmember.
The ball joint is pressed into the control arm and
has a non-tapered stud with a notch for clamp bolt
clearance. The stud is clamped and locked into the
steering knuckle leg with a clamp bolt.
The ball joint is lubricated for the life of the vehi-
cle and does not require any periodic lubrication.
STABILIZER BAR
The stabilizer bar interconnects both Mc Pherson
strut assemblies of the vehicle and is attached
through rubber isolator bushings to the front suspen-
sion cradle
Jounce and rebound movements affecting one
wheel are partially transmitted to the opposite wheel
to stabilize body roll.
Attachment of the stabilizer bar to the front sus-
pension cradle is through 2 rubber-isolator bushings
and bushing retainers. The stabilizer bar to Mc Pher-
son strut assembly attachment is done utilizing a
sway bar attaching link. All parts of the stabilizer
bar are serviceable, and the stabilizer bar to cross-
member bushings are split for easy removal and
installation. The split in the stabilizer bar to cross-
member bushing should be positioned toward the
rear of the vehicle, with the square corner down
toward the ground, when the stabilizer bar is
installed in the vehicle.
STABILIZER BAR ATTACHING LINK
The stabilizer bar attaching links are used to
attach each end of the stabilizer bar to the front
strut assemblies. This reduces the fore-and-aft rate of
the stabilizer bar from the rest of the vehicle's front
suspension.
HUB AND BEARING ASSEMBLY
The Unit III Front Hub and Bearing Assembly is
used on all front wheel drive vans.
All hub and bearing assemblies mount to the steer-
ing knuckle the same way, but very by the wheel size
on the vehicle. Vehicles equipped with 14 inch wheels
have a 4 inch wheel mounting stud pattern. Vehicles
equipped with 15 inch wheels have a 4 1/2 inch
wheel mounting stud pattern. If a hub and bearing
assembly needs to be replaced, be sure that the
replacement assembly has the same size wheel
mounting stud pattern as the original part.
This unit is serviced only as a complete assembly.
It is mounted to the steering knuckle by four mount-
ing bolts that are removed from the rear of the steer-
ing knuckle.
Fig. 1 Front Steering Knuckle
2 - 10 SUSPENSIONNS
DESCRIPTION AND OPERATION (Continued)

ADJUSTER REAR DRUM BRAKE (AUTOMATIC)
The rear drum brakes on this vehicle automatically
adjust, when required, during the normal operation
of the vehicle every time the brakes are applied. Use
the following procedure to test the operation of the
automatic adjuster.
Place the vehicle on a hoist with a helper in the
driver's seat to apply the brakes. Remove the access
plug from the adjustment hole in each brake support
plate to provide visual access of the brake adjuster
star wheel.
Remove the park brake cable, for the wheel of the
vehicle that is being worked on, from the park brake
cable equalizer (Fig. 12). This is required to gain
access to the star wheel. If the cable is not removed
from the equalizer, the cable and spring inside of the
brake drum is in the way of the star wheel.
To eliminate the condition where maximum adjust-
ment of the rear brake shoes, does not allow the
automatic adjuster to operate when tested, back the
star wheel off approximately 30 notches. It will be
necessary to hold the adjuster lever away from the
star wheel to permit this adjustment.
Have the helper apply the brakes. Upon applica-
tion of the brake pedal, the adjuster lever lever
should move down, turning the adjuster star wheel.
Thus, a definite rotation of the adjuster star wheel
can be observed if the automatic adjuster is working
properly. If one or more adjusters do not function
properly, the respective drum must be removed for
adjuster servicing.
BRAKE ROTOR
Any servicing of the rotor requires extreme care to
maintain the rotor to within service tolerances to
ensure proper brake action.Before refinishing or refacing a rotor, the rotor
should be checked and inspected for the following
conditions:
Braking surface scoring, rust, impregnation of lin-
ing material and worn ridges.
Excessive rotor lateral runout or wobble.
Thickness variation in braking surface of the rotor
(Parallelism).
Dishing or distortion in braking surface of the
rotor (Flatness).
If a vehicle has not been driven for a period of
time, the rotors will rust in the area not covered by
the brake lining and cause noise and chatter when
the brakes are applied.
Excessive wear and scoring of the rotor can cause
temporary improper lining contact if ridges are not
removed from braking surface of rotor before instal-
lation of new brake shoe assemblies.
Some discoloration and/or wear of the rotor surface
is normal and does not require resurfacing when lin-
ings are replaced.
Excessive runout or wobble in a rotor can increase
pedal travel due to piston knock-back. This will also
increase guide pin bushing wear due to the tendency
of the caliper to follow rotor wobble.
Thickness variation in a rotor can also result in
pedal pulsation, chatter and surge due to variation in
brake output. This can also be caused by excessive
runout in the rotor and/or the hub.
Dishing or distortion can be caused by extreme
heat and abuse of the brakes.
CHECKING ROTOR FOR RUNOUT AND
THICKNESS
NOTE: The procedure for checking rotor runout
and thickness is the same for the front and rear
rotor. If there is a specification difference between
the front and rear rotor it will be designated as
such in the specifications of the following proce-
dure.
On-vehicle rotor runout is the combination of the
individual runout of the hub face and the runout of
the rotor. (The hub and rotor runouts are separable).
To measure runout on the vehicle, remove the wheel
and reinstall the lug nuts tightening the rotor to the
hub. Mount Dial Indicator, Special Tool C-3339 with
Mounting Adaptor, Special Tool SP- 1910 on steering
arm. Dial indicator plunger should contact braking
surface of rotor approximately 10 mm (0.393 in.)
from outer edge of rotor (Fig. 13). Check lateral
runout on both sides of rotor. Lateral runout of the
rotor should not exceed 0.13 mm (0.005 inch).
If lateral runout is in excess of the specification,
check the lateral runout of the hub face. Before
removing rotor from hub, make a chalk mark across
Fig. 12 Park Brake Cable Equlizer
5 - 14 BRAKESNS
DIAGNOSIS AND TESTING (Continued)

(13) Lower the vehicle to the ground.Be sure
that the suspension is supporting the full
weight of the vehicle.
(14) Tighten the spring to front hanger pivot bolts
to a torque of 156 N´m (115 ft. lbs.).
(15) Tighten the shock absorber mounting bolts to
a torque of 101 N´m (75 ft. lbs.).
(16) Tighten the track bar mounting bolt to a
torque of 95 N´m (70 ft. lbs.).
(17) Road test vehicle to ensure that the prema-
ture rear wheel lockup condition has been corrected.
SPECIFICATIONS
BRAKE FLUID
The brake fluid used in this vehicle must conform
to DOT 3 specifications and SAE J1703 standards.No other type of brake fluid is recommended or
approved for usage in the vehicle brake system. Use
only Mopar brake fluid or an equivalent from a
tightly sealed container.
CAUTION: Never use reclaimed brake fluid or fluid
from an container which has been left open. An
open container will absorb moisture from the air
and contaminate the fluid.
CAUTION: Never use any type of a petroleum-
based fluid in the brake hydraulic system. Use of
such type fluids will result in seal damage of the
vehicle brake hydraulic system causing a failure of
the vehicle brake system. Petroleum based fluids
would be items such as engine oil, transmission
fluid, power steering fluid ect.
VEHICLE BRAKE SYSTEM COMPONENT SPECIFICATIONS
Brake System Component Specifications
5 - 82 BRAKESNS
ADJUSTMENTS (Continued)

BRAKE ACTUATION SYSTEM
ACTUATION:
Vacuum Operated Power Brakes.........Standard
Hydraulic System...........Dual-Diagonally Split
Antilock Brake Sytem (Teves Mark-20)...........
MASTER CYLINDER ASSEMBLY:
Supplier..............................Bosch
Type For Non-ABSAnd
ABS Brakes. . . .Conventional Compensating Port
Type For ABS Brakes
With Traction Control . . .Dual Center Port Design
Body Material...............Anodized Aluminum
Reservoir Material................Polypropelene
MASTER CYLINDER BORE /
STROKE AND SPLIT:
ABS W/Disc/Drum Brakes......23.8 mm x 36 mm
(.937 in. x 1.47 in.)
AWD W/Disc/Disc Brakes........25.4 mm x 39 mm
(1.00 in. x 1.50 in.)
Displacement Split.....................50/50
MASTER CYLINDER FLUID OUTLET PORTS:
Non-ABS And ABS . . .Primary 7/16±24 Secondary 7/
16±24
ABS With Traction Control.......Primary M12 x 1
Secondary M12 x 1
Outlet Fitting Type Non-ABS
AndABS...........Double Wall Inverted Flare
Outlet Fitting Type ABS With
Traction Control...................ISO Flare
ABS HYDRAULIC CONTROL UNIT:
Hydraulic Tube Fitting Type............ISO Flare
BOOSTER:
Make/Type.................Bosch Vacuum Assist
Mounting Studs.....................M8x1.25
Type .........................270 ZLT RSMV
Boost At 20 inches Of
Manifold Vacuum...........3800 N´m (850 lbs.)
PROPORTIONING VALVE:
Material...........................Aluminum
Function....................Hydraulic Pressure
Proportioning To Rear Brakes
BRAKE PEDAL
Pedal Ratio.............................3.36
BRAKE FASTENER TORQUE SPECIFICATIONS
DESCRIPTION TORQUE
BRAKE TUBES:
Tube Nuts To Fittings And
Components..............17N´m(145 in. lbs.)
BRAKE HOSE:
To Caliper Banjo Bolt..........48N´m(35ft.lbs.)
Intermediate Bracket.........12N´m(105 in. lbs.)
MASTER CYLINDER:
To Vacuum Booster
Mounting Nut............25N´m(225 in. lbs.)
FIXED PROPORTIONING VALVE:
To Frame Rail Attaching
Bolts....................14N´m(125 in. lbs.)
HEIGHT SENSING PROPORTIONING VALVE:
To Mounting Bracket
Attaching Bolts...........23N´m(200 in. lbs.)
Actuator Assembly
Adjustment Nut.............5N´m(45in.lbs.)
Mounting Bracket To Frame
Rail Bolts................17N´m(150 in. lbs.)
JUNCTION BLOCK (NON-ABS BRAKES)
To Suspension Cradle
Mounting Bolt............28N´m(250 in. lbs.)
VACUUM BOOSTER:
To Dash Panel Mounting
Nuts....................28N´m(250 in. lbs.)
REAR WHEEL CYLINDER:
To Support Plate Mounting
Bolts.....................8N´m(75in.lbs.)
Bleeder Screw...............10N´m(80in.lbs.)
BRAKE SUPPORT PLATE:
To Rear Axle Mounting Bolts . . .130 N´m (95 ft. lbs.)
DISC BRAKE CALIPER:
Guide Pin Bolts..............41N´m(30ft.lbs.)
Bleeder Screw..............15N´m(125 in. lbs.)
ABS HYDRAULIC CONTROL UNIT:
Mounting Bracket To
Suspension Cradle Bolts.....28N´m(250 in. lbs.)
To Mounting Bracket Isolator
Attaching Bolts............11N´m(97in.lbs.)
CAB To HCU Mounting Screws . . .2 N´m (17 in. lbs.)
WHEEL SPEED SENSOR:
To Axle Or Steering Knuckle
Mounting Bolt............12N´m(105 in. lbs.)
PARKING BRAKE:
Pedal Assembly Mounting
Bolts....................28N´m(250 in. lbs.)
REAR HUB AND BEARING:
To Axle Mounting Bolts........129 N´m (95 ft. lbs.)
WHEEL:
Stud Lug Nut........115±156 N´m (84-115 ft. lbs.)
NSBRAKES 5 - 83
SPECIFICATIONS (Continued)