torque DODGE NEON 1999 Service Repair Manual

(4) Used (original) bearing may lose up to 50 per-
cent of the original drag torque after break-in.
NOTE: All bearing adjustments must be made with
no other component interference or gear inter-
mesh, except the transfer gear bearing.
(5) Refer to the conversion chart in specifications
to convert inches to millimeter measurements. Refer
to bearing shim chart for proper shim thicknesses.
OUTPUT SHAFT BEARING
With output shaft gear removed, install a 13.65
mm (0.537 inch) and a 1.34 mm (0.053 inch) gauging
shim on the planetary rear annulus gear hub using
grease to hold the shim in place. The 13.65 mm shim
has a larger inside diameter and must be installed
over the output shaft first. The 1.34 mm shim pilots
on the output shaft.
Install output shaft gear and bearing assembly,
torque to 271 N´m (200 ft. lbs.).
To measure bearing end play:
(1) Attach Tool L-4432 to the output shaft gear.
(2) Mount a steel ball with grease into the end of
the output shaft.
(3) Push and pull the gear while rotating back and
forth to insure seating of the bearing rollers.
(4) Using a dial indicator mounted to the transaxle
case, measure output shaft end play.
(5) Once bearing end play has been determined,
refer to the output shaft bearing shim chart.
(6) The 12.65 mm (0.498 inch), 13.15 mm (0.518
inch) or 13.65 mm (0.537 inch) shims are always
installed first.These shims have lubrication slots
that are necessary for proper bearing lubrica-
tion.
(7) Shims thinner than 12.65 mm listed in the
chart are common to both the transfer shaft and out-
put shaft bearings.
(8) Use tool L-4434 to remove the retaining nut
and washer. To remove the output shaft gear use tool
L-4407.
(9) Remove the two gauging shims and install the
proper shim combination, making sure to install the
12.65, 13.15, or 13.65 mm shim first. Use grease to
hold the shims in place. Install the output shaft gear
and bearing assembly.
(10) Install the retaining nut and washer, and
torque to 271 N´m (200 ft. lbs.).
(11) Using an inch-pound torque wrench, check the
turning torque.The torque should be between 3
and 8 inch-pounds.
(12) If the turning torque is too high, install a
0.05mm (0.002 inch) thicker shim. If the turning
torque is too low, install a 0.05 mm (0.002 inch) thin-
ner shim. Repeat until the proper turning torque is 3
to 8 inch pounds.
DIFFERENTIAL BEARING
(1) Position the transaxle assembly vertically on
the support stand, differential bearing retainer side
up.
(2) Install Tool L-4436A into the differential and
onto the pinion mate shaft.
OUTPUT SHAFT BEARING SHIM CHART
Fig. 199 Tool L-4436 and Torque Wrench
21 - 102 TRANSAXLEPL
ADJUSTMENTS (Continued)

(3) Rotate the differential at least one full revolu-
tion to ensure the tapered roller bearings are fully
seated.
(4) Using Tool L-4436A and an inch-pound torque
wrench, check the turning torque of the differential.
The turning torque should be between 5 and 18
inch-pounds.
(5) If the turning torque is within specifications,
remove tools. Setup is complete.
(6) If turning torque is not within specifications
proceed with the following steps.
(a) Remove differential bearing retainer from
the transaxle case.
(b) Remove the bearing cup from the differential
bearing retainer using Tool 6062A.
(c) Remove the existing shim from under the
cup.
(d) Measure the existing shim.
NOTE: If the turning torque was too high when
measured, install a .05 mm (.002 inch) thinner shim.
If the turning torque is was too low, install a .05 mm
(.002 inch) thicker shim. Repeat until 5 to 18 inch-
pounds turning torque is obtained.
Oil Baffle is not required when making shim
selection.
(e) Install the proper shim under the bearing
cup. Make sure the oil baffle is installed properly
in the bearing retainer, below the bearing shim
and cup.
(f) Install the differential bearing retainer using
Tool 5052 and C-4171. Seal the retainer to the
housing with MOPARtAdhesive Sealant and
torque bolts to 28 N´m (250 in. lbs.).
(7) Using Tool L-4436A and an inch-pound torque
wrench, recheck the turning torque of the differen-tial.The turning torque should be between 5
and 18 inch-pounds.
TRANSFER SHAFT BEARING
(1) Use tool L-4434 to remove the retaining nut
and washer. Remove the transfer shaft gear using
tool L-4407.
(2) Install a 2.29 mm (0.090 inch) and a 1.39 mm
(0.055 inch) gauging shims on the transfer shaft
behind the governor support.
(3) Install transfer shaft gear and bearing assem-
bly and torque the nut to 271 N´m (200 ft. lbs.).
To measure bearing end play:
a. Attach tool L-4432 to the transfer gear.
b. Mount a steel ball with grease into the end of
the transfer shaft.
c. Push and pull the gear while rotating back and
forth to insure seating of the bearing rollers.
d. Using a dial indicator, measure transfer shaft
end play.
e. Refer to the Transfer Bearing Shim Chart for
the required shim combination to obtain the proper
bearing setting.
Fig. 200 Checking Differential Bearings Turning
Torque
DIFFERENTIAL BEARING SHIM CHART
SHIM THICKNESS
MM INCH
.980 0.0386
1.02 0.0402
1.06 0.0418
1.10 0.0434
1.14 0.0449
1.18 0.0465
1.22 0.0481
1.26 0.0497
1.30 0.0512
1.34 0.0528
1.38 0.0544
1.42 0.0560
1.46 0.0575
1.50 0.0591
1.54 0.0607
1.58 0.0623
1.62 0.0638
1.66 0.0654
1.70 0.0670
2.02 0.0796
2.06 0.0812
PLTRANSAXLE 21 - 103
ADJUSTMENTS (Continued)

f. Use tool L-4434 to remove the retaining nut and
washer. Remove the transfer shaft gear using tool
L-4407.
g. Remove the two gauging shims and install the
correct shim combination. Install the transfer gear
and bearing assembly.
h. Install the retaining nut and washer and torque
to 271 N´m (200 ft. lbs.). Measure transfer shaft end
play, end play should be 0.05 to 0.25 mm (0.002 to
0.010 inch).
i. Measure bearing end play. End play should be
between .05 mm and .25 mm (.002 to .010 inch).
NOTE: If end play is too high, install a 0.05 mm
(0.002 inch) thinner shim combination. If end play is
too low, install a 0.05 mm (0.002 inch) thicker shim
combination. Repeat until 0.05 to 0.25 mm (0.002 to
0.010 inch) end play is obtained.
TRANSFER BEARING SHIM CHART
21 - 104 TRANSAXLEPL
ADJUSTMENTS (Continued)

SPECIFICATIONS
31TH AUTOMATIC TRANSAXLE
Type...........Automatic three speed with torque
converter and integral differential
Torque Converter
Diameter...............241 millimeters (9.48 in.)
Oil Capacity..............8.6 Liters (18.25 pints)
OilType..........MopartATF PLUS 3 Type 7176
Cooling Method........Water Heat Exchanger and/
or air to oil heat exchanger
Lubrication......Pump (internal-external gear-type
Gear Ratios
Transmission Portion
First Gear..............................2.69
Second Gear.............................1.55
Third Gear..............................1.00
Reverse Gear............................2.10
Pump Clearances
Outer Gear To Pocket.............0.045-0.141mm
(0.0018-0.0056 in.)
Outer Gear Side Clearance.........0.020-0.046mm
(0.0008-0.0018 in.)
Inner Gear Side Clearance.........0.020-0.046mm
(0.0008-0.0018 in.)
Tapered Roller Bearing Settings
Differential Assembly . . .6 to 12 in. lbs. Drag Torque
Output Hub............0to3in.lbs. Drag Torque
Transfer Shaft.........0.002 to 0.010 in. End Play
Overall Drag At Output Hub . . .3 to 16 in. lbs. Drag
Torque
Clutch Pack Clearances
Front Clutch (Not Adjustable)........1.27-2.79mm
(0.050-0.110 in.)
Rear Clutch.........0.71-1.10mm (0.028-0.043 in.)
Band Adjustment
Kickdown, Backed Off From
8N²m (72 in. lbs.)...............21/4Turns
Low-Reverse, Backed Off From
5N²m (41 in. lbs.)................31/2Turns
31TH TRANSAXLE TORQUE SPECIFICATIONS
DESCRIPTION TORQUE
Bell Housing Cover Bolts......12N´m(105 in. lbs.)
Cooler Hose To Rad. Conn......12N´m(105 in. lbs.)
Cooler Line Conn............28N´m(250 in. lbs.)
Diff. Bear. Ret. To Case Bolt . . .34 N´m (300 in. lbs.)
Diff. Cover To Case Bolt.......19N´m(165 in. lbs.)
Exten. Hous. To Case Bolt.....28N´m(250 in. lbs.)Flex Plate To Crankshaft Bolts . . .95 N´m (70 ft. lbs.)
Flex Plate To Torque
Conv. Bolts................68N´m(50ft.lbs.)
Fluid Filter Screw.............5N´m(45in.lbs.)
Front Motor Mount Bolt........54N´m(40ft.lbs.)
Governor Counterweight
Screw...................28N´m(250 in. lbs.)
Governor To Support Bolt.......7N´m(60in.lbs.)
Kickdown Band Adj. Lock Nut . . .47 N´m (35 ft. lbs.)
Left Motor Mount Bolts........54N´m(40ft.lbs.)
Lower Bell Housing
Cover Screw...............41N´m(30ft.lbs.)
Manual Cable To Trans.
Case Bolt................28N´m(250 in. lbs.)
Manual Control Lever Screw . . .12 N´m (105 in. lbs.)
Oil Pan To Trans. Case Screw . .19 N´m (165 in. lbs.)
Output Gear Strap Bolts........23N´m(17ft.lbs.)
Output Shaft Nut...........271 N´m (200 ft. lbs.)
Park/Neutral Switch...........34N´m(25ft.lbs.)
Pressure Check Plug...........5N´m(45in.lbs.)
Pump To Case Bolts..........31N´m(275 in. lbs.)
Reaction Shaft Assembly Bolt . .28 N´m (250 in. lbs.)
Rear Cover To Case Screw.....19N´m(165 in. lbs.)
Reverse Band Adj. Lock Nut . . .14 N´m (125 in. lbs.)
Reverse Band Shaft Plug........7N´m(60in.lbs.)
Ring Gear Screw..............95N´m(70ft.lbs.)
Speedo. To Ext. Hous. Screw.....7N´m(60in.lbs.)
Sprag Ret. To Transfer
Case Bolt................28N´m(250 in. lbs.)
Starter To Trans. Bell Bolts.....54N´m(40ft.lbs.)
Stirrup Strap Ret. Bolts.......23N´m(200 in. lbs.)
Throttle Cable To Trans.
Case Bolt................12N´m(105 in. lbs.)
Throttle Lever To Trans.
Shaft Bolts...............12N´m(105 in. lbs.)
Trans. To Cyl. Block Bolt.......95N´m(70ft.lbs.)
Transfer Shaft Nut..........271 N´m (200 ft. lbs.)
Transfer Gear Strap Bolts......23N´m(17ft.lbs.)
Valve Body Assy. To
Case Bolts...............12N´m(105 in. lbs.)
Valve Body Screw..............5N´m(45in.lbs.)
PLTRANSAXLE 21 - 113

Torque Tool C-4995
Adapter C-4996
Remover Kit L-4406
Bearing Remover Cup L-4406±1
Bearing Remover Jaws L-4406±2
Adapter L-4406±3
Gear Puller L-4407A
Puller L-4407±6
21 - 116 TRANSAXLEPL
SPECIAL TOOLS (Continued)

Install wheel on vehicle, and progressively tighten
the 5 wheel nuts to a torque of 135 N´m (100 ft. lbs.).
TIRE AND WHEEL MATCH MOUNTING
Wheels and tires are match mounted at the factory.
This means that the high spot of the tire is matched
to the low spot on the wheel rim. This technique is
used to reduce run-out in the wheel/tire assembly.
The high spot on the tire is marked with a paint
mark or a bright colored adhesive label on the out-
board sidewall. The low spot on the rim is identified
with a label on the outside of the rim and a dot or
line on the inside of the rim. If the outside label has
been removed the tire will have to be removed to
locate the dot or line on the inside of the rim.Before dismounting a tire from its wheel, a refer-
ence mark should be placed on the tire at the valve
stem location. This reference will ensure that it is
remounted in the original position on the wheel.
(1) Measure the total indicator runout on the cen-
ter of the tire tread rib. Record the indicator reading.
Mark the tire to indicate the high spot. Place a mark
on the tire at the valve stem location (Fig. 8).
(2) Break down the tire and remount it 180
degrees on the rim (Fig. 9).
Fig. 6 Forward-Cross Tire Rotation Method
Fig. 7 Tire Repair Area
Fig. 8 First Measurement On Tire
Fig. 9 Remount Tire 180 Degrees
22 - 6 TIRES AND WHEELSPL
SERVICE PROCEDURES (Continued)

The wheel cover retaining nut (Fig. 2) is retained
in the wheel cover and will stay on the wheel cover
when un-threaded from the wheel nut. If required,
the retaining nut can be removed from the wheel
cover and replaced as a separate part of the wheel
cover.
The lock-on wheel cover can not be removed from
the wheel until all 5 wheel cover retaining nuts are
un-threaded from the wheel nuts. Then the lock-on
wheel cover can be removed by hand from the wheel.
DIAGNOSIS AND TESTING
WHEEL INSPECTION
Inspect wheels for:
²Excessive run out
²Dents or cracks
²Damaged wheel lug nut holes
²Air Leaks from any area or surface of the rim
NOTE: Do not attempt to repair a wheel by ham-
mering, heating or welding.
If a wheel is damaged an original equipment
replacement wheel should be used. When obtaining
replacement wheels, they should be equivalent in
load carrying capacity. The diameter, width, offset,
pilot hole and bolt circle of the wheel should be the
same as the original wheel.
WARNING: FAILURE TO USE EQUIVALENT
REPLACEMENT WHEELS MAY ADVERSELY AFFECT
THE SAFETY AND HANDLING OF THE VEHICLE.
USED WHEELS ARE NOT RECOMMENDED. THE
SERVICE HISTORY OF THE WHEEL MAY HAVE
INCLUDED SEVERE TREATMENT OR VERY HIGH
MILEAGE. THE RIM COULD FAIL WITHOUT WARN-
ING.
TIRE AND WHEEL RUNOUT
NOTE: Runout should always be measured off the
vehicle and on a suitable balance machine.Radial run out is the difference between the high
and low points on the outer edge of the tire or wheel.
Lateral run out is the total side±to±side wobble of
the tire or wheel.
Radial run out of more than 1.5 mm (.060 inch)
measured at the center line of the tread may cause
the vehicle to shake.
Lateral run out of more than 2.0 mm (.080 inch)
measured at the side of the tire as close to the tread
as possible may cause the vehicle to shake.
Sometimes radial run out can be reduced by relo-
cating the wheel and tire on the wheel studs (See
Method 1). If this does not reduce run out to an
acceptable level, the tire can be rotated on the wheel.
(See Method 2).
METHOD 1 (RELOCATE WHEEL ON HUB)
Check accuracy of the wheel mounting surface;
adjust wheel bearings.
Drive vehicle a short distance to eliminate tire flat
spotting from a parked position.
Verify all wheel nuts are tightened and properly
torqued in the correct sequence (Fig. 4).
Use run out gauge D-128-TR to determine run out
(Fig. 5).
Fig. 3 Wheel Nut And Wheel Cover Retaining Nut
Fig. 4 Tightening Wheel Nuts
Fig. 5 Run Out Gauge
PLTIRES AND WHEELS 22 - 9
DESCRIPTION AND OPERATION (Continued)

Relocate the wheel on the mounting studs, two
studs over from the original position.
Retighten wheel nuts until all are properly
torqued. This will prevent brake distortion.
Check radial run out. If still excessive, mark tire
sidewall, wheel, and stud at point of maximum run
out (Fig. 6) and proceed to Method 2.
METHOD 2 (RELOCATE TIRE ON WHEEL)
Rotating tire on wheel is particularly effective
when there is run out in both tire and wheel.
Remove tire from wheel and remount wheel on hub
in former position.
Check the radial run out of the wheel (Fig. 7). The
radial runout should be no more than 0.762 mm
(0.030 inch).
Check the lateral run out of the wheel (Fig. 8). The
lateral run out should be no more than 0.762 mm
(0.030 inch).
If the point of greatest wheel radial run out is near
the original chalk mark, remount the tire on the rim
180 degrees from its original position. Recheck therun out. If this does not reduce the run out to an
acceptable level, replace the wheel and/or the tire.
SERVICE PROCEDURES
TIRE AND WHEEL BALANCE
Balancing need is indicated by vibration of seats,
floor pan, or steering wheel. The vibration will be
noticed mostly when driving over 90 km/h (55 mph)
on a smooth road.
It is recommended that a two plane dynamic bal-
ancer be used when a wheel and tire assembly
require balancing. Static balancing should be used
only when a two plane balancer is not available.
Off-vehicle tire and wheel balancing is recom-
mended to be used on this vehicle.
NOTE: If on vehicle equipment is being used to bal-
ance the tire /wheel assemblies, remove the oppo-
site tire/wheel from the vehicle.
For static balancing, find the location of heavy spot
on tire/wheel causing the imbalance. Counter balance
wheel directly opposite the heavy spot. Determine
weight required to counterbalance the area of imbal-
ance. Place half of this weight on theinnerrim
flange and the other half on theouterrim flange
(Fig. 9).
For dynamic balancing, the balancing equipment is
designed to indicate the location and amount of
weight to be applied to both the inner and outer rim
flanges (Fig. 10).Fig. 6 Chalk Marking On Wheel, Tire And Stud
Fig. 7 Checking Wheel Radial Run Out
Fig. 8 Checking Wheel Lateral Run Out
22 - 10 TIRES AND WHEELSPL
DIAGNOSIS AND TESTING (Continued)

REMOVAL AND INSTALLATION
WHEEL COVER (LOCK-ON)
REMOVE
NOTE: When unthreading the wheel cover retaining
nuts (Fig. 11) from the wheel nuts it is recom-
mended that a hand wrench be used and not an
impact wrench. Use of an impact wrench could
result in damage to the lock-on wheel cover retain-
ing nuts.
(1) Un-thread the 5 nuts (Fig. 11) attaching the
wheel cover to the wheel nuts.
(2) Grasp the wheel cover and pull straight out-
ward from the wheel. This will remove the wheel
cover from the wheel.
INSTALL
(1) Align the valve notch in the wheel cover with
the valve stem on the wheel (Fig. 11). Align the
wheel cover retaining nuts with the externally
threaded wheel nuts.
(2) By hand, start to thread all 5 of the wheel
cover retaining nuts onto the externally threaded
wheel nuts.
NOTE: When tightening the wheel cover retaining
nuts it is recommended that a hand wrench be used
and not an impact wrench. Use of an impact wrench
could result in damage to the lock-on wheel cover
retaining nuts.
(3) Tighten each of the wheel cover retaining nuts.
If the retaining nut ªjumpsº a thread (slips), which is
an override feature of the retaining nut, retighten
the retaining nut to a point just prior to this occur-ring. To avoid rattling of the wheel cover be sure all
five retaining nuts are correctly tightened.
WHEEL AND TIRE
CAST ALUMINUM WHEEL
To install the wheel, first position it properly on
the mounting surface using the hub pilot as a guide.
All wheel nuts should be lightly tightened before pro-
gressively tightening them in the proper sequence
(Fig. 12). Then tighten wheel nuts in the proper
sequence to a torque of 135 N´m (100 ft. lbs.). Never
use oil or grease on studs or nuts.
STEEL WHEEL
REMOVE
CAUTION: When removing the lock-on wheel cover,
do not attempt to pry the wheel cover off the wheel.
This can result in damage to the wheel cover. The
wheel cover is removed by un-threading the wheel
cover retaining nuts and pulling it off the wheel by
hand.
NOTE: When unthreading the lock-on wheel cover
retaining nuts (Fig. 13) from the wheel nuts it is rec-
ommended that a hand wrench be used and not an
impact wrench. Use of an impact wrench could
result in damage to the lock-on wheel cover retain-
ing nuts.
(1) Un-thread the 5 nuts (Fig. 13) attaching the
wheel cover to the wheel nuts.
(2) Grasp the wheel cover and pull straight out-
ward. This will remove the wheel cover from the
wheel.
(3) Remove the wheel nuts (Fig. 14) from the
studs.
(4) Remove the wheel and tire from the hub.
Fig. 11 Wheel Cover Retaining Nuts
Fig. 12 Tightening Wheel Nuts
22 - 12 TIRES AND WHEELSPL

INSTALL
(1) To install the wheel, first position it properly
on the studs and hub mounting surface using the
hub pilot as a guide. Install andlightly tightenthe
wheel nuts in the proper sequence (Fig. 15).
CAUTION: When installing the wheel/tire never use
oil or grease on studs or nuts.
(2) Progressively tighten the 5 wheel nuts in the
proper sequence (Fig. 15) until tightened to half of
the specified torque. Then tighten the wheel nuts in
the proper sequence to a torque of 135 N´m (100 ft.
lbs.).
(3) Align the valve notch in the wheel cover with
the valve stem on the wheel (Fig. 13). Align the
wheel cover retaining nuts with the externally
threaded wheel nuts.
(4) By hand, start to thread all 5 of the wheel
cover retaining nuts onto the externally threaded
wheel nuts.NOTE: When tightening the wheel cover retaining
nuts it is recommended that a hand wrench be used
and not an impact wrench. Use of an impact wrench
could result in damage to the lock-on wheel cover
retaining nuts.
(5) Tighten each of the wheel cover retaining nuts.
If the retaining nut ªjumpsº a thread (slips), which is
an override feature of the retaining nut, retighten
the retaining nut to a point just prior to this occur-
ring. To avoid rattling of the wheel cover be sure all
five retaining nuts are correctly tightened.
WHEEL COVER RETAINING NUT
If a retaining nut for the lock-on wheel cover is
damaged, it can be replaced as a separate component
of the wheel cover. Use the following procedure for
replacing a wheel cover retaining nut.
REMOVE
(1) If required, remove the wheel cover from the
wheel. Refer to Wheel Cover Lock-On in the Removal
And Installation Section in this group of the service
manual for the procedure.
NOTE: The retaining nut flange can not be forced
past the large retaining tab. When removing retain-
ing nut from wheel cover, the flange on the retain-
ing nut must be forced past the 2 small retaining
tabs on wheel cover.
(2) From the back side of the wheel cover, push
outward and tilt the retaining nut sideways forcing
the flange on the retaining nut past the 2 small
retaining tabs in the retaining nut hole of the wheel
cover (Fig. 16).
(3) When flange on retaining nut is past the 2
retaining tabs on the wheel cover, remove retaining
nut from wheel cover by pushing or pulling from hole
in wheel cover.
Fig. 13 Wheel Cover Retaining Nuts
Fig. 14 Wheel Nuts
Fig. 15 Wheel Nut Tightening Sequence
PLTIRES AND WHEELS 22 - 13
REMOVAL AND INSTALLATION (Continued)