1988 PONTIAC FIERO Service Repair Manual

BRINELLING
SURFACE INDENTATIONS IN RACEWAY
CAUSED BY ROLLERS EITHER UNDER
IMPACT LOADING OR VIBRATION WHILE
THE BEARING IS NOT ROTATING.
REPLACE BEARING IF ROUGH OR NOISY. CAGE WEAR
WEAR AROUND OUTSIDE DIAMETER OF
CAGE AND ROLLER POCKETS CAUSED
BY ABRASIVE MATERIAL AND
INE FF IClENT LUBRICATION CHECK
SEALS AND REPLACE BEARINGS. ABRASIVE
ROLLER WEAR
PATTERN ON RACES AND ROLLERS
CAUSED BY
FINE ABRASIVES.
CLEAN ALL PARTS AND HOUSINGS,
CHECK SEALS AND BEARINGS AND
REPLACE IF LEAKING, ROUGH
OR NOISY
CRACKED INNER RACE
WEARS FRETfAGE
RACE CRACKED DUE TO IMPROPER FIT, SMEARING OF METAL DUE TO SLIPBAGE, CORROSION SET UP BY SMALL
COCKING. OR POOR BEARING SEATS. SLIPPAGE CAN BE CAUSED BY POOR RELATIVE MOVEMENT OF PARTS WITH I F ITS. LUBRICATION, OVERHEATING,
OVERLOADS OR HANDLING DAMAGE
REPLACE BEARING. CLEAN RELATED
REPLACE BEARINGS, CLEAN RELATED
PARTS AND CHECK FOR PROPER FIT
I AND LUBRICATION. I I
HEAT DISCOLORATION CAN RANGE
FROM FAINT YELLOW TO DARK BLUE
RESULTING FROM OVERLOAD OR
INCORRECT LUBRICANT.
EXCESSIVE HEAT CAN CAUSE
SOFTENING OF RACES
OR ROLLERS.
TO CHECK FOR LOSS OF TEMPER ON
RACES OR ROLLERS A SIMPLE
FlLE TEST MAY BE MADE. A FILE DRAWN OVER A
TEMPERED PART WlLL GRAB AND CUT
METAL. WHEREAS, A FlLE DRAWN OVER
A HARD PART WlLL GLIDE READILY WlTH NO METAL CUTTING
REPLACE BEARINGS IF OVER HEATING
DAMAGE IS INDICATED. CHECK SEALS
AND OTHER PARTS.
mAIN DISCOLORATION
I DISCOLORATION CAN RANGE FROM
LIGHT BROWN TO BLACK CAUSED BY
INCORRECT LUBRICANT OR MOISTURE.
RE-USE BEARINGS IF STAINS CAN BE
REMOVED BY LIGHT POLISHING OR IF
NO EVIDENCE OF OVERHEATING IS
OBSERVED.
CHECK SEALS AND RELATED PARTS FOR
DAMAGE.

STEERING, SUSPENSION. TIRES AND WHEELS DIAGNOSIS 3-21
TRIM WEIGHTS (@ CURB WEIGHT) I
The follow~ng procedure should be followed before making
any trim height measurement.
1.
"2" & "J" DIMENSIONS a. Lift vehicle up approximately 1-112" at the front
bumper and gently remove hands allowing vehicle to
settle on its own. Repeat this lifting operation twice
for
a total of three times. Measure the "2" & "J" heights in the settled position after the third lift.
b. Push vehicle down approximately
1.1/2"at the front
bumper and gently remove hands allowing vehicle to
settle on its own. Repeat this pushing down operation twice for
a total
of 3 times. Mewre the "Z" & "J" heights in the settled position after the third
push.
c. The true
"2" L "J" height is the averlge of (a) and (b) for each side.
"0" L "K" DIMENSIONS
NOTE
: Follow the same pattern cn stated above for the "Z" & "J" dimensions when measuring the "0" "K" dimensions except: Lift and push on the
rear bumper.
CENTER OF
LOWE CONTROL ARM 'FRONT BUSHING BOLT HEAD k828.0-t REAR AXLE
Z '10.0 / AXLE
BUMPER BRKT
REAR BOLT
ASM (EXCLUDING GREASE FITTING)
I Dimensions shown in mmll mm = 0.039 in. I
F41 = Special Heavy Duty. = Multi Port Injection.
FE2 = Touring Pkg. Susp.
NOTE:
TIRE PRESSURE
SHOULDBE AS SHOWN ON TIRE PRESSURE STICKER AND VEHICLE
SHOULD HAVE A
FULLTANK OF GASOLINE BEFORE MAKING TRIM HEIGHT CHECKS.
I Fig. 23 Trim Height Diagnosis

-
WHEEL. ALIGNMENT 3A-1
SECTION 3A
WHEEL AL GNMENT
NOTICE: These fasteners are important attaching Do not use a replacement part of lesser quality or
parts, in that they could affect the performance of substitute
design. Torque values must be used as
vital components and systems, and/or could result specified during reassembly to assure proper
in major repair expense. They must be replaced retention of these parts. For prevailing torque
with one of the same part number or with an
nut(s) and bolt(s), refer to the "Reuse of Prevailing
equivalent part if replacement becomes necessary. torque
Nut(s) and Bolt(s)" chart in Section 0.
General Description ...................... .. ...... 3A- 1 On-Car Service ........................ .. ........... 3A-2
Caster .................... .. ............................ 3A- 1 Caster and Camber Adjustment .................. 3A-2
..................................... Camber ................... .. .............................. 3A-I Toe-In Adjustment 3A-2
Toe.. ................................................. 3A- 1 Axle Housing Alignment ......................... .... 3A-4
Preliminary Checks Prior to Specifications ....................... ... ............... 3A-4
Adjusting Alignment ..................... ...... 3A- 1
GENERAL DESCRIPmIOMI
Wheel alignment refers to the angular they tend to roll parallel on the road when the car is
relationship between the wheels, the suspension moving.
attaching parts and the ground.
PRELIMINARY CHECKS PRIOR TO ADJUSTING
CASTER ALIGNMENT
Figure 1
Caster is the amount the top of the strut is tilted
forward or rearward from the vertical. When the strut
tilts rearward, the center is "positive"
(+). The
amount of tilt is measured in degrees from vertical.
CAMBER
Figure 1
Camber is the tilting of the wheels from the
vertical when viewed from the front of the car. When
the wheels tilt outward at the top, the camber is said
to be positive
(+). When the wheels tilt inward at the
top, the camber is said to be negative
(-). The amount
of tilt is measured in degrees from the vertical and this
measurement is called the camber angle.
TOE
Figure i
Toe is a measurement of how much the front of
the wheels are turned in or out from a straight-ahead
position. When the wheels are turned in, toe is
"positive"
(+). When the wheels are turned out, toe
is "negative"
(-). The actual amount of toe-in is
normally only a fraction of a degree. The purpose of a
toe specification is to ensure parallel rolling of the
wheels (excessive toe-in or toe-out may increase tire
wear). Toe also serves to offset the small deflections of
the wheel support system which occur when the car is
rolling forward. In other words, even when the wheels
are set to toe-in slightly when the car is standing still, Steering
and vibration complaints are not always
the result of improper alignment. Another possibility
is tire "lead" due to worn or improperly manufactured
tires. "Lead" is the deviation of the car from a straight
path on a level road without hand pressure on the
steering wheel. Section
3 of this manual contains a
procedure for determining the presence of a tire lead
problem.
Before making any adjustment affecting wheel
alignment, make the following checks to ensure correct
alignment readings and alignment adjustments:
1. Check all tires for proper inflation pressures and
approximately the same tread wear.
2. Hub and bearing assemblies for excessive wear;
correct if necessary.
3. Ball joints and tie rod ends; if they are excessively
lcose, correct them before adjusting.
4. Run-out of wheels and tires.
5. Car trim height; if out of limits and a correction
is to be made, do so before adjusting alignment.
Refer to Section
3 for trim height specifications.
6. Strut dampeners for proper operation.
7. Control arms for loose bushings.
8. Loose or missing stabilizer bar attachments.
Consideration must be given to excess loads, such
as tool boxes, sample cases, etc. If these items are
normally carried in the car, they should remain in the
car during alignment adjustments. Consideration
should also be given to the condition of the equipment
used to adjust alignment. Be sure to follow the
equipment manufacturer's instructions. Regardless
of

3A-2 WHEEL ALIGNMENT
0 FRONT
& OF WHEEL
CASTER ANGLE
LEFT SIDE
VIEW
CAMBER
I
Fig. 1 Alignment Angles
the equipment used to adjust alignment, the car must
be on a
level surface, both fore-and-aft and sideways.
ON-CAR SERVICE
CASTER AND CAMBER ADJUSTMENT nuts and bolts. Apply penetrating oil between the
clamp and tube and rotate the clamps until they move
Before adjusting caster and camber the freely. Install new bolts and nuts having the same part front be 'aised and twice to number to assure proper at the specified nut allow vehicle to return to its normal height. See "Trim torque. Heights."
Caster and camber can be adjusted by moving the
position of the upper strut mount assembly, as shown
in Fig. 601. Moving
the mount forward/rearward
adjusts caster; 'movement inboard/outboard adjusts
camber.
The position of the mount can be changed after
loosening the three nuts shown in Fig.
601. The weight
of the vehicle will normally cause the strut assembly to
move to the full inboard position.
Install Tool
5-29724 and tighten the turnbuckle
until the proper camber reading is obtained. Then, if
an adjustment in caster is required, the mount can be
tapped forward or rearward with a rubber mallet.
Tighten the three
(3) nuts to specifications.
TOE-IN ADJUSTMENT
Toe-in can be increased or decreased by changing
the length of the tie rods.
A threaded sleeve is provided
for this purpose.
When the tie rods are mounted ahead of the
steering knuckle they must be decreased in length in
order to increase toe-in.
1. Loosen the clamp bolts at each end of the steering
tie rod adjustable sleeves.
2. With steering wheel set in straight ahead position,
turn tie rod adjusting sleeves to obtain the proper
toe-in
adjustrne~t.
3. When adjustment has been completed according
to the recommended snecifications. check to see
Tie rod adjuster parts often become rusted in
that the number of thrkads showing on each end
service. In such cases, it is recommended that if the
of sleeve are equal and that the tie rod end
torque required to remove the nut from the bolt after housings are at the right angles to steering arm.
breakaway exceeds 9.0
Nam (80 lb. in.), discard the
Position tie rod clamps and sleeves. Torque nuts.

WHEEL ALIGNMENT 3A-3
Using reliable elignment equipment, follow the mmu-
When the correct camber and cater rerdings are
obtained, tighten the (31 nuts attrching the mount rrrembly to 28 N.m. Remove 5.29724. Install the
fender bolt and dust cap.
520031-38
Fig. 601 Caster and Camber Adjustment
HORIZONTAL NOTE: SLOT IN ADJUSTER
SLEEVE MUST NOT BE
WITHIN THIS AREA OF
CLAMP JAWS.
NOTE: 'LOCATE CLAMPS WITHIN
TOLERANCE SHOWN
.005" MIN (.I27 mm)
NOTE: MUST HAVE MlNlMUN SLOT SHOWN AFTER TORQUING
TIE ROD CLAMP TO ADJUSTER
SLEEVE.
ROD-'NNER CAUTION-CLAMP MUST BE
Fig.
602 Tie Rod Clamp and Sleeve Positioning*

3A-4 WHEEL ALIGNMENT
AXLE HOUSING ALIGNMENT 2. If a tram is used for checking toe out, it will still
be necessary to perform Steps
1 and 2 in order to If rear tire wear indicates that the axle housing
check camber.
may be bent, the alignment can be checked as follows:
The necessary straightening operations may be
1. Back the car squarely onto an alignment performed using frame straightening equipment
machine, ~h~ actual toe-out will be read on the without removing the axle housing from the car. This
scale as toe-in. However, if the toe-out is checked procedure will allow checks during the straightening
with a tram gage, disregard this notice. operation
to determine when the housing is within the
prescribed limits.
SPECIFICATIONS
1 CASTER 1 +5.0+0.5O 1 +5.0° 1
TOE
* Z & D trim height dimensions to be held while checking1
setting alignment specs.
* Vehicle must be jounced three times before checking
alignment, to eliminate false geometry readings.
Toe adjustment to be set separately per wheel, with
steering wheel held in "straight-ahead" position within
+-5.0-.
A - Left & right side to be equal within 0.7"
B - Left & right side to be equal within 1 .OO when checking1
Fig. 603 Wheel Alignment Specs
DEG(PER WHEEL)
CAMBER OO+O.10 0°
O0+O.5O A 0°

STEERING WHEELS AND COLUMNS 385.1
SECTION 3B5
STEER NG WHEELS AND COLUMNS
NOTICE: All steering wheel and column fasteners are important attaching parts in that they could affect
the performance of vital parts and systems, and/or could result in major repair expense. They
must be replaced
with one of the same part number or with an equivalent part if
replacement becomes necessary. Do not use a
replacement part of lesser quality or substitute design. 'Torque values must be used as specified during reassembly
to assure proper retention of all parts. There is to be no welding as
it may result in extensive damage and weakening
of the metal.
For prevailing torque
nut(s) and bolts(s), refer to the "Reuse of Prevailing Torque Nut(<) and Bolt(s) " chart
in Section OA.
CONTENTS
..................... ................................................................... GENERAL DESCRIPTION .. 3B5-1 ............................................. ........................ MAINTENANCE AND ADJUSTMENTS .. 3B5-1 ON-CAR SERVICE ........................................................................................................ 3B5-2
Steering Column ............................................................................................................ 3B5-2 ......................................................................................................... Intermediateshaft 3B5-3
Park Lock Cable .................................................................... 3B54 ......................................................................................... Checking For Accident Damage 3B5-5 ............................................................................ Unit Repair Intermediate Shaft Assembly 3B5-6
..................................................................................... Standard Column @lanual Trans) 3B5-7 ......................................................... ....................... Standard Column (Auto Trans) .. 3B5-13 Tilt Column (Manual Trans) ............................................................................................. 3B5-19
Tilt Column (Auto Trans). ................................................................................................ 3B5-27
................ .................... TORQUE SPECIFICATIONS .. .. 3B5-35
SPECIAL TOOLS .......................................................................................................... 3B5-35
GENERAL DESCRIPTION
STEERING COLUMN
The function locking energy absorbing steering
column includes three important features in addition
to the steering function:
1. 'The column is energy absorbing, designed to
compress in a front-end collision to minimize the
possibility of an injury to the driver of the car.
2. The ignition switch and lock are mounted
conveniently on this column.
3. With the column mounted lock, the ignition and
steering operations can be locked to inhibit theft
of the car.
The turn signal lever provides for control of
headlight beams, windshield washer and wipers.
The column may be easily
disassembled and Fig. 385-1 Steering Wheel Alignment ~ypical
reassembled. To insure the energy absorbing action, it
on a flat surface to determine steering wheel
is important that only the specified screws, bolts, and
position at which vehicle follows a straight path.
nuts be used as designated and that they are tightened
2. With front wheels set straight ahead, check to the specified torque.
position of flat on wormshaft designating steering
When the column assembly is removed from the
gear high point. This flat should be at the top side
car, special care must be taken in handling it. Use of
of the shaft at 12 o'clock position.
a steering puller other than the One 3, if gear has been moved off high when recommended in this manual, a sharp blow on the
setting wheels in straight ahead position, loosen
end of the steering shaft or shift lever, leaning on the
assembly, or dropping the assembly could shear or adjusting
sleeve clamps on both left and right
hand tie rods, then turn both sleeves an equal
loosen the plastic fasteners which maintain column
rigidity. number
of turns in the same direction
to bring
gear back
on high point.
MAINTENANCE AND ADJUSTMENTS NOTICE: Turning the sleeves an unequal number
Steering Wheel Alignment and High Point of turns or in different directions will disturb the
Centering toe-in setting of the wheels.
1. Set front wheel in straight ahead position, This 3. Readjust toe-in as outlined in Section 3A (if
can be checked by driving vehicle
a short distance necessary).