engine FORD MUSTANG 1969 Volume One Chassis

03-13-02
Specifications

03-13-02

POWER STEERING PUMP

SERVICE
SPECIFICATIONS

Description

Pump Rotor Shaft End Play

Max. Torque Allowed
to

Rotate Rotor Shaft

Stamped Housing to Plate

Assy. Screw and Washer Assy.

Reservoir
to
Stamped Housing

Nut

Cam Ring to Pressure Plate

Screw

Housing to Cover Screw
Ford-Thompson

.017 in. Max.-.003 in. Min.

15 In-Lb.

28-32 Ft.-Lb.

43-47 Ft.-Lb.

_

-
Eaton

—

_

-

—

20 In-Lb.

15-20 Ft,-Lb.

FORD-THOMPSON POWER STEERING

PUMP
TORQUE
LIMITS (FT-LBS)

Description

Pump Rear Mounting Nut

Pressure Hose Nut

Pump Attaching Nuts

Bracket
to
Engine Attaching Nuts
6-Cyl.

302-351 CID

390,427,428,429 CID

Bracket
to
Cylinder Head

Belt Adjustment Bolt

Rear Support Bracket Attaching Nuts

Bracket
to
Engine Adapter

Engine Adapter
to
Engine

Engine Adapter
to
Pump
240 CID

170-200 CID

170-200 CID

250 CID

250 CID
Ford,
Mercury,

Meteor,

Thunderbird

14-18

20-30

25-35

1216

18-25

30-40

25-35

-

45-60

-

-

-

-
Cougar, Falcon,

Fairlane, Montego,

Mustang

20-30

20-30

30-40

7-10

18-25

30-40

25-35

25-35

-

25-35

17-25

30-40

25-35

INTEGRAL
POWER
STEERING GEAR SPECIFICATIONS

Description

Type

Ratio

Turns of Steering Wheel (Lock
to
Lock-Linkage Disconnected)

Fluid Specifications

Fluid Capacity (Included in Pump Reservoir Fill)

Phosphorescent Dye Additive (For Leak Detection)

Sector Shaft End Play -Linkage Disconnected

Sector Shaft Mesh Load. Total Over Mechanical Center

Position.
Must beCDGreater Than Worm

Bearing Preload Torque, Shown Below

Worm Bearing Preload

Clearance Between Valve Spool
&
Retaining Ring

Pressure Variation Between Right
&
Left Turn (At 250
P.S.I.)
-

Check Efforts Each Side
of
Center

Clearance Between Inner Sector Seal and Housing
Ford Design

(XR-«0)
Saginaw

Design

Recirculating Ball Torsion Bar

17:1

4
17.5:1

41/8

M-2C33-F

1.6 Pints (Approx.)

M99B103-A(4 0z. per quart)

None

14 In Lb (Max)

(Exc. Lincoln)

17
In
Lb (Max.)

(Lincoln)

2-7 la
U)

.0035-.0005"

Preferable .002"

4
In
Lb Max.

Variation

.025"
.002"
Max.

14
In
Lb (Max)

4-7 In Lb®

_

—

-

©8-9 In Lb (XR-50 Exc. Lincoln) 11-12 In Lb
for
Uncoln,
4-8 In
Lb
for
Saginaw Gear.

® 3 In Lb in Excess of Valve Assy. Drag Total Worm Bearing Preload and Seal Drag
not to
Exceed
8 In
Lb.procarmanuals.com

03-13-06

Specifications

03-13-06

TORQUE LIMITS-FRONT SUSPENSION

LINCOLN CONTINENTAL

Description

Brace-Front Suspension to Sidemember (Model 74A Only)

Drag Strut
to
Strut Bracket Assembly

Lower Arm Assembly to Front Crossmember
-
(Attach Bracket)

Lower Arm Assembly to No. 2 Crossmember

Drag Strut
to
Lower Arm Assembly

Wheel Spindle to Lower Arm Ball Joint

Front Wheel Spindle to Upper Arm Ball Joint Assembly

Upper Arm Inner Shaft
to
Upper Arm

Upper Arm and Shaft Assembly to No. 2 Crossmember

Shock Absorber Bracket Assembly to No. 2 Crossmember Bracket

Shock Absorber Assembly to No. 2 Crossmember Assembly (Top End)

Shock Absorber Assembly Lower Arm Spring Seat Reinforcement Assembly

Upper Ball Joint
to
Control Arm

Stabilizer Bar Assembly
to
Underbody

Stabilizer Bar
to
Lower Arm

Jounce Bumper Assembly
to
Strut (Lower Arm)

Front Splash Shield to Spindle

Caliper to Spindle
FtLbs

90-110

70-90

55-75

110-140

70-90

70-90

55-75

25-35

100-125

40-55

20-30

20-30

21-29

20-30

5-10

22-28

9-14

100-140

TORQUE LIMITS-REAR SUSPENSION

FORD, MERCURY, METEOR

Description

Shock Absorber
to
Frame (Upper Attachment)

Upper Arm to Axle Bracket (Nut)

Track Bar to Axle Track Bar Stud

Track Bar Stud to Axle

Track Bar
to
Frame (Bolt Torque)

Track Bar Stud to Axle Bracket (Nut)

Wheel Lug Nut

Brake Backing Plate and Bearing Retainer to Axle-All Cars except those with 240
or
302 CID Engines

Brake Backing Plate and Bearing Retainer to Axle-All Cars with 240
or
302 CID Engines

Shock Absorber to Axle (Lower Attachment)

Bumper Assembly
to
Frame

Lower Arm to Axle-Bolt

Lower Arm to Axle-Nut

Upper Arm
to
Frame-BoU

Upper Arm
to
Frame-Nut

Lower Arm
to
Frame-Bolt

Lower Arm
to
Frame-Nut

Bumper Assembly to No. 4 Crossmember

Universal Joint
U-Bolt
Nut

Air Leveling Compressor
to
Apron

Height Control Valve to Bracket

Height Control Valve Bracket to No. 4 Crossmember
FtLbs

20-28

90-100

80-105

100-130

80-105

80-105

70-115

50-70

20-30

50-35

9-13

90-120

70-90

90-120

70-90

90-120

70-90

9-13

10-15

10-13

17-25

9-13procarmanuals.com

04-01-03
General Axle Service

04-01-03

Tool-759L 4204-A,

T65K 4204-
A,

T66L-4204-A,

OR

Tool-44211-A

E1897-A

FIG. 3—Limited-Slip Differential Check

Using
a
torque wrench
of at
least

200 ft-lbs capacity, rotate
the
axle

shaft.
Be
sure that
the
transmission
is

in neutral,
one
rear wheel
is on the

floor,
and the
other rear wheel
is

raised
off the
floor.
The
torque
re-

quired
to
continuously rotate
the
shaft

should
be at
least
75
ft-lbs
or 40
ft-lbs

(Traction-Lok).
The
initial breakaway

torque
may
be
higher than
the
contin-

uous turning torque,
but
this
is nor-

mal.
The
axle shaft should turn with

^ven pressure throughout
the
check

without slipping
or
binding.

If
the
torque reading
is
less than

specified, check
the
differential
for

improper assembly.

A vehicle equipped with
a
limited-

slip differential will always have both

wheels driving.
If,
while
the
vehicle
is

being serviced, only
one
wheel
is

raised
off the
floor
and the
rear axle

is driven
by the
engine,
the
wheel
on

the floor will drive
the
vehicle
off the

stand
or
jack.

GEAR TOOTH CONTACT

PATTERN CHECK

When rolling
a
tooth pattern,
use

the special compound (tube) packed

with each service ring gear
and
pinion

set.

Paint
all
gear teeth
and
roll
a pat-

tern
as
described
in
Section
3.
After

diagnosing
the
tooth pattern
as ex-

plained here, make
the
appropriate

adjustments
as
outlined
in
Section
2.

In making
a
final gear tooth
con-

tact pattern check,
it is
necessary
to

recognize
the
fact that there
are
three

different types
of
gear sets, hunting,

non-hunting
and
partial non-hunting.

Each type
is
determined
by the num-
ber
of
teeth
in the
gears.
The non-

hunting
and
partial non-hunting types

can
be
identified
by the
paint timing

marks
on the
pinion
and
ring gear

teeth. (Part 4-2,
Fig. 51).
See
Part
4-5

for complete identification specifica-

tions.

ACCEPTABLE TOOTH

PATTERNS (ALL AXLES)

Figure
4
shows acceptable tooth

patterns
for all
axles.
Any
combina-

tion
of
drive
and
coast patterns will
be

acceptable.

In general, desirable tooth patterns

should have
the
following character-

istics:

1.
The
drive pattern should
be
fair-

ly well centered
on the
tooth.

2.
The
coast pattern should
be
fair-

ly well centered
on the
tooth.

3.
Some clearance between
the pat-

tern
and the top of the
tooth
is
desir-

able.

4.
There should
be no
hard lines

where
the
pressure
is
high.

The individual gear
set
need
not

conform exactly
to the
ideal pattern

to
be
acceptable.

Any combination
of
drive
and
coast

patterns shown
in Fig. 4 are
accep-

table.

Hunting Gear
Set

In
a
hunting-type gear
set, any one

pinion gear tooth comes into contact

with
all
ring gear teeth.
In
this type,

several revolutions
of
the
ring gear
are

required
to
make
all
possible gear

combinations.
Any combination
of
drive
and
coast

patterns shown
in
Fig.
4
will
be
acceep-

table.

Non-Hunting Gear
Set

In
a
non-hunting type gear
set, any

one pinion gear tooth comes into
con-

tact with only
a few
ring gear teeth.

In this type, only
one
revolution
of
the

ring gear
is
required
to
make
all
poss-

ible tooth contact combinations.
Any

combination
of
drive
and
coast
pat-

terns shown
in Fig. 4
will
be
accept-

able.

Partial Non-Hunting

Gear
Set

In
a
partial non-hunting type gear

set,
any one
pinion tooth comes into

contact with only part
of
the
ring gear

teeth,
but
more than
one
revolution
of

the ring gear
is
required
to
make
all

possible gear tooth combinations.
Any

combination
of
drive
and
coast
pat-

terns shown
in Fig. 4
will
be
accept-

able.

SHIM
AND
BACKLASH

CHANGES

Since each gear
set
rolls
a
charac-

teristic pattern,
the
patterns shown
in

Fig.
4 are
considered acceptable
and

should
be
used
as a
guide.
The
drive

pattern
is
rolled
on the
convex side
of

the tooth,
and the
coast pattern
is

rolled
on the
concave side.

The movement
of
tooth contact
pat-

terns with changes
in
shimming
can
be

summarized
as
follows:

Removable Carrier Type Axle

1.
Thicker shim with
the
backlash

set
to
specifications moves
the
pinion

further from
the
ring gear:

2.
Thinner shim with
the
backlash

set
to
specifications moves
the
pinion

closer
to the
ring gear:

If
the
patterns
are not
correct,

make
the
changes
as
indicated.
The

pinion need
not be
disassembled
to

change
a
shim.
All
that
is
required
is

to remove
the
pinion, bearing,
and re-

tainer assembly
and
install
a
different

shim. When reinstalling
the
pinion

and retainer assembly
of a
non-
hunt-

ing
or
partial non-hunting gear
set, be

sure that
the
marked tooth
on the pi-

nion indexes between
the
marked teeth

on
the
ring gear
(Fig.
51,
Part
4-2).

Refer
to
Pinion
and
Ring Gear Tooth

Contact Adjustment, Section
2.procarmanuals.com

04-02-13

Rear Axle
—
Removable Carrier Type
04-02-13

lower insulators. Torque
the
spring

clip nuts
to
specification.

2.
Place
the
brake backing plates
in

their normal position
on the
axle

housing.

3.
Install
new
axle shaft
oil
seals

with
the
tool shown
in Fig. 10.
Soak

the
new
seals
in
light weight engine
oil

(SAE
10) for 1/2
hour before install-

ing them. Installation without
use of

the proper tool will distort
the
seal

and cause leakage. Coat
the
outside
edges
of the new oil
seal with
a non-

hardening type
of
sealer such
as Per-

matex
No. 2 or its
equivalent.

4.
Install
the
axle shafts, brake

drums
and
wheels
as
outlined
in Sec-

tion
2.

5.
Attach
the
hydraulic brake line

T fitting
to the
axle housing,
and se-

cure
the
hydraulic brake line
in its re-

tainer
on the
axle housing.

6. Install vent tube
to
brake tube

junction
and
install vent hose
to
vent
tube.

7.
Raise
the
axle housing
and con-

nect
the
shock absorbers.

8. Connect
the
rear
end of the
drive

shaft
to the
axle U-joint flange, align-

ing
the
scribe marks made
on the

drive shaft
end
yoke
and the
axle
U-

joint flange.

9. Fill
the
axle with
the
proper

grade
and
amount
of
lubricant.

10.
Road test
the
vehicle.

MAJOR REPAIR OPERATIONS

DISASSEMBLY
OF

DIFFERENTIAL CARRIER

CONVENTIONAL

DIFFERENTIAL

A disassembled view
of the
rear

axle assembly
is
shown
in Fig. 17.

After mounting
the
carrier
in a

holding fixture, disassemble
the car-

rier
as
outlined
in the
following proce-

dures:

1.
Mark
one
differential bearing

cap
and the
mating bearing support

with punch marks
to
help position
the

parts properly during assembly
of the

carrier. Also, mark
one of the
bearing

adjusting nuts
and the
carrier with

AXLE SHAFT-4725
RETAINER RING-1100
scribe marks
for
proper location
dur-

ing assembly.

2.
Remove
the
adjusting
nut
locks,

bearing caps,
and
adjusting nuts. Then

lift
the
differential case assembly
out

of
the
carrier.

(Remove
the
bearing caps
by tap-

ping
the
caps lightly with
a
soft
mal-

let).

3.
Remove
the
differential bearings

with
the
tools shown
in Fig. 18.

4.
Mark
the
differential case, cover,

and ring gear
for
assembly
in the
orig-

inal position.

5.
Remove
the
bolts that attach
the

ring gear
to the
differential case. Press

the gear from
the
case
or tap it off

with
a
soft-faced hammer.

6. With
a
drift, drive
out the
differ-

AXLE HOUSING-4010

DIFFERENTIAL

PINION SHAFT-4211
ential pinion shaft lock
pin (Fig. 19),

and separate
the
2-piece differential

case.

7.
Drive
out the
pinion shaft with
a

brass drift
(Fig. 20).

8. Remove
the
gears
and
thrust

washers
(Fig. 48).

LIMITED-SLIP DIFFERENTIAL

1.
Remove
the
differential case

from
the
carrier
and
remove
the
bear-

ings from
the
differential case
in the

same manner
as the
conventional
dif-

ferential case.

2.
Place
the
differential case
in a

hydraulic press,
and
apply about
one

ton pressure across
the
case bearing

hubs while removing
the
ring gear
at-

FLAT WASHER (LIMITED SLIP ONLY)

DRIVE GEAR ATTACHING BOLT

DIFFERENTIAL CASE COVER -4206

DIFFERENTIAL PINION GEAR-4215

THRUST WASHER-4230

ADJUSTING NUT-4067

CARRIER HOUSING-4025

DRIVE PINION-4610
PINION BEARING

SPACER-4662

PINION FRONT

BEARING-4621

RING GEAR

PILOT BEARING-4A242

FIG. 17—Rear Axle Disassembled—Typical
PILOT BEARING

RETAINER-4627

PINION REAR

BEARING CUP-4616
DEFLECTOR-4859

PINION RETAINER-4668

SEAL-4676
FLANGE_4858
E1750-Aprocarmanuals.com

04-03-03

Rear Axles
—
Integral Carrier Type

04-03-03

1
Bridge

Side Rail

I f

MUSTANG, COUGAR,

FAIRLANE. MONT EGO

AND FALCON WITH-

8 CYLINDER ENGINE
FALCON WITH-

6 CYLINDER ENGINE

Tool-T60K-1225-A

Press
Ram

FOR

ADJUSTABLE

BED PRESS

Press
Ram

BEARING
Support
Plate
—*

BEARING INSTALLATION

VIEW
2

<•
Support
Plate
»

BEARING
REMOVAL

VIEW
1
FOR FIXED

BED PRESS
Press
Ram

Press
Ram

BEARING
^-Support
Flange-*

BEARING REMOVAL

VIEW
3

Adapter
Ring

t—
Support
Plate
—>

BEARING INSTALLATION

VIEW 4

FOR

PUSH-PULLER

OPERATION

BEARING REMOVAL

VIEW
5

BEARING

BEARING

INSTALLATION

VIEW
6

E1211-D

FIG.
5—Removing
and
Installing Rear Wheel Bearing—Falcon, Mustang
and
Fairlaneprocarmanuals.com

04-03-06

Rear Axles — Integral Carrier Type

04-03-06

9. Install a new integral nut and

ivasher on the pinion shaft. (Apply a

small amount of lubricant on the

washer side of the nut.)

10.
Hold the flange with the tool

shown in Fig. 9 while the nut is being

tightened.

11.
Tighten the pinion shaft nut,

rotating the pinion occasionally to in-

sure proper bearing seating, (Fig. 6)

and take frequent preload readings

until the preload is at the original rec-

orded reading established in step 3.

12.
After original preload has been

reached, tighten the pinion nut slowly,
until an additional preload of 6 to 12

in-lbs has been added.

The preload should not exceed the

amount shown above, or bearing fail-

ure may result.

Under no circumstances should the

pinion nut be backed off to lessen pre-

load. If this is done, a new pinion

bearing spacer must be installed. (In

addition, the U-joint flange must

never be hammered on, or pneumatic-

-tools used.)

13.
Remove the oil seal replacer

tool from the transmission extension
housing. Install the front end of the

drive shaft on the transmission output

shaft.

14.
Connect the rear end of the

drive shaft to the axle U-joint flange,

aligning the scribe marks made on the

drive shaft end yoke and the axle U-

joint flange (Fig. 14).

15.
Check the lubricant level. Make

sure the axle is in running position.

Add whatever amount of specified lu-

bricant is required to reach the lower

edge of the filler plug hole, located in

the carrier casting or housing cover.

REMOVAL AND INSTALLATION

REAR AXLE HOUSING

REMOVAL

1.
Raise the vehicle and support it

with safety stands under the rear

frame member.

2.
Drain the lubricant from the

axle.

3.
Make scribe marks on the drive

shaft end yoke and the axle U-joint

flange to insure proper position of the

drive shaft at assembly (Fig. 14). Dis-

connect the drive shaft at the drive

pinion flange.

4.
Disconnect the lower end of the

shock absorbers.

5.
Remove the wheels, brake drums

and both axle shafts as outlined in the

foregoing Section 2.

6. Remove vent hose front vent

tube (Corbin clamp) and remove vent

tube from brake tube junction and

axle housing.

7.
Remove the hydraulic brake T-
fitting from the axle housing. Do not

open the hydraulic brake system lines.

Remove the hydraulic brake line from

its retaining clip on the axle housing.

8. Remove both axle shaft oil seals

with the tools shown in Fig. 8.

9. Remove both brake backing

plates from the axle housing and sus-

pend them above the housing with me-

chanic's wire. The hydraulic brake

SCRIBE MARKS

5/16-24

4 REQ'D.

12-15
LB.
FT.

U-BOLT - 4529 2 REQ'D.

E 1783-A

FIG. 14—Drive Shaft-to-Axle

U-Joint
Connection

El231-A

FIG. 73—Rear Axle Installation—Typical
lines and the parking brake cables are

still attached to the brake carrier

plates.

10.
Support the rear axle housing

on a jack, and then remove the spring

clip nuts. Remove the spring clip

plates (Fig. 13)

11.
Lower the axle housing and re-

move it from under the vehicle.

12.
If the axle housing is being re-

placed, transfer all the differential and

pinion parts to the new housing. See

Section 4, Major Repair Operations.

INSTALLATION

1.
Raise the axle housing into posi-

tion so that the spring clip plates can

be installed. On a Montego or Fair-

lane,
position the spring upper insula-

tors and retainers between the axle

housing and springs and install the

lower insulators. Torque the spring

clip nuts to specification.

2.
Place the brake backing plates in

their normal position on the axle

housing. Use new gaskets on each side

of the brake backing plates.

3.
Install new axle shaft oil seals

with the tool shown in Fig. 8. Soak

the new seals in light weight engine oil

(SAE 10) for 1/2 hour before install-

ing them. Installation without use of

the proper tool will distort the seal

and cause leakage. Coat the outside

edges of the new oil seal with a non-

hardening type of sealer such as Per-

matex No. 2 or its equivalent.

4.
Install the axle shafts, brake

drums and wheels as outlined in Sec-

tion 2.

5.
Attach the hydraulic brake line

T fitting to the axle housing, and se-

cure the hydraulic brake line in its re-

tainer on the axle housing.

6. Install vent tube to brake tubeprocarmanuals.com

04-04-01

Rear Axle — Ford Light-Duty (WER)
04-04-01

PART 4-4 Rear Ax/e-Ford Light-Duty (WER)

COMPONENT INDEX

AXLE HOUSING

Cleaning and Inspection

Removal and Installation

AXLE SHAFT

Cleaning and Inspection

Removal and Installation

DESCRIPTION

DIFFERENTIAL CASE

Cleaning and Inspection

Disassembly and Overhaul

Removal and Installation

DIFFERENTIAL BEARINGS AND DRIVE

GEAR

Cleaning and Inspection

Removal and Installation

PINION AND RING GEAR

Cleaning and Inspection

Removal and Installation

PINION BEARING CUPS

Cleaning and Inspection

Removal and Installation
MODEL APPLICATION
AN
Models
Ford

01-09

04-04

01-10

04-06

04-01

01-10

04-07

04-06

01-10

04-08

01-10

04-08

01-10

04-08
Mercury
N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A
Meteor
01-09

04-04

01-10

04-06

04-01

01-10

04-07

04-06

01-10

04-08

01-10

04-08

01-10

04-08
Cougar
N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A
Fairlane
N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A
Falcon
N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A
Montego
N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A
Mustang
N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A
Lincoln-
Continental
N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A
Thunderbird
N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A
Continental-
Mark
III
N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

N/A

A page number indicates that the item is for the vehicle listed at the head of tne column.

N/A indicates that the item is not applicable to the vehicle listed.

DESCRIPTION

A light-duty, integral-carrier, con-

ventional-type rear axle assembly (Fig.

1) is used in Ford and Meteor passen-

ger vehicles equipped with 240-IV and

302 2V engines and related transmis-

sions.
The axle (model WER) incor-

porates the following features:

The hypoid gear set consists of an

8.50 inch diameter ring gear and an

overhung drive pinion which is sup-

ported by two opposed tapered roller

bearings. A drive pinion pilot bearing

is not used in this axle.

The differential carrier is the non-

removable type, with a stamped bolt-

on cover. The filler hole is tapped in
the front portion of the carrier casting

and uses a
1/2-14
tapered pipe plug

with a 3/8 inch square female drive. A

bumper pad is machined on the pinion

nose portion of the carrier. The rub-

ber bumper is mounted on the vehicle

underbody.

The differential case is a one-piece

design, with openings allowing assem-

bly of the internal components and lu-

bricant flow. The differential pinion

shaft is retained with a threaded bolt

(lock) assembled to the case.

The axle housing assembly consists

of tube assemblies pressed and welded

into the differential casting. The brake
backing plate retainer is welded in-

board of the outer edges of the tubes,

and allows assembly of the backing

plate, independent of the axle shafts.

The roller-type wheel bearings have

no inner race, and contact the bearing

journals of the axle shafts.

The axle shafts do not use an inner

or outer bearing retainer. They are

held in the axle by means of C-locks,

positioned in a slot on the splined end.

These C-locks also fit into a machined

recess in the differential side gears

within the differential case. There is

no retainer bolt access hole in the axle

shaft flange.
procarmanuals.com

04-05-04
Specifications

04-05-04

ATTACHING TORQUE SPECIFICATIONS -(By Axle Ring Gear Diameter)

Description

Differential Bearing Cap Bolt- 7 1/4"

8"

All Others

Differential Bearing Adjusting

Nut Lock Bolts

Carrier
to
Housing Stud Nuts-

8", 8 3/4", 9" 8 3/8"

Pinion Retainer
to
Carrier Bolts-

8", 8 3/4", 9" 9 3/8"

Ring Gear Attaching Bolts-

7 1/4"

All Others

Differential Pinion Shaft

Lock Pin
•
8 1/2" Only
Torque Lbs.
Ft.

40-55

55-70

70-85

12-25

25-40

30-45

40-55

65-80

15-22
Description

Rear Cover Screw and Washer

Assemblies
-8
1/4" &
8
1/2

Only

Oil Filler Plug

Rear Axle Shaft Bearing Retainer

Bolt Nuts:

Falcon,
Fairlane, Montego,

Mustang and Cougar (All)

Ford & Meteor (Exc.
8 1/2" R.G.)

Mercury,
T
Bird

Lincoln Continental (All)

Brake Backing Plate Bolt Nuts-

Ford & Meteor
8
1/2" Only
Torque Lbs.
Ft.

25-35

25-50

20-40

50-75

30-55

20-40

LUBRICANT
CAPACITIES
AND CHECKING PROCEDURES®

Vehicle

Falcon,
Mustang

Cougar, Fairlane, Falcon

Montego, Mustang

Ford,
Meteor

Ford,
Meteor

Cougar, Fairlane, Falcon, Ford,

Mercury, Meteor, Montego, Mustang

Lincoln,
Thunderbird
Engine

(C.I.D.)

170,
200

250,
302

240,
302

240,
302

351,
390,

428,
429

429,
460
Axle

Ratio

All

All

2.80:1,
3.10:1

All Except

2.80:1,
3.10:1

All

All
U.S. Measure

Capacity® (Pints)

2.5

4.0

4.0

5.0

5.0

5.0©
Imperial

Capacity
CD
(Pints)

2

31/5

3 1/5

4.0

4.0

4.0©

©All limited slip and Traction-Lok axles use ESW-M2C-104-A lubricant (C6AZ-19580-C).

All conventional axles use ESW-M2C-105-A lubricant (C6AZ-19580-B).

©Approximate refill capacity-Actual lubricant capacities are determined
by
filling
to
bottom
of
filler hole.

©To check these axles, the plug should be backed
out
slowly.
If
seepage occurs around the threads, the plug should
be
turned back
in

immediately to avoid any drainage. This indicates that the specified amount
of
lubricant
is
present
in
the axle.

SPECIAL TOOLS

FORD,
MERCURY, METEOR

Ford Tool No.

T66L-4204-L

T57L-500-A

T50T-100-A

TOOL-4235-C

T00L-4621-A

TOOL-1225-D

T00L42344

TOOL-1177

TOOL-U75-AB

T57L4220-A

T00L4221-AE

T00L-4221-AF

T66P-4220-P

TOOL-4851-K
Former No.

42211 or

42211-A

6005-M

6005-MS

B-160

4235C

—

—

4234-A

4245-B

1175-AB

—

4221-AF

T57L-4851-A

4851-K
Description

Limited-Slip Differential Check

Bench Fixture

Impact Hammer

Axle Shaft Remover

Drive Pinion Bearing and

Rear Wheel Bear Replacer

Rear Wheel Bearing Remover

Rear Wheel Bearing Installer

Rear Wheel Bearing Oil Seal Installer

Rear Wheel Bearing Oil Seal Remover

Differential Bearing Remover

Differential Bearing Remover

U-Joint
Flange Holder
Ford Tool No.

T53T4851-A

T00L4858-D

T57L4614-A

T00L4621-K

T53L-200-A

T57L-4625-A or

T00L4625-K

T57L4616-A or

T00L4615-D

T58L-101-A

T55P4616-A2

T57L4621-B or

T00L4621-L

T58L4676-A

T00L4858-E
Former No.

4851-A, D

—

4614

4621-K

—

4625-K

—

—

—

—

4676-F

4858-E
Description

U-Joint
Flange Remover

U-Joint
Flange Remover

Drive Pinion Retainer Support

Pinion Rear Bearing Cone Remover

Handle Adapter

Pinion Pilot Bearing Remover and

Installer

Pinion Front Bearing Cup Remover

and Replacer

Puller Attachment—For Bearing

Cup Removal

Pinion Rear Bearing Cup Remover

and Replacer

Pinion Rear Bearing Cone Installer

Drive Pinion Oil Seal Replacer

U-Joint
Flange and Pinion Bearing

Replacerprocarmanuals.com

04-05-06

Specifications

04-05-06

THUNDERBIRD, CONTINENTAL MARK
III

Ford Tool No.

T50T-100-A

T50T-100-A&

TOOL-1175-AB

T00L-1225-DA

TOOL-4005

TOOL-4020-B

T57L-4067-A

TOOL-4201

TOOL-4201-C

TOOL-4205-B

TOOL-4205-C

T00L-4221-C

T00L-4222-H

T00L-4235-C

T00L-4245-B
Former No.

T50T-100-C

1175-AE

1225-DA

4005

4020-B

_

4201

4201-C

4205-B

4205-C

4221-C

4222-H

4235-C

4245-B
Description

Slide Hammer

Seal Remover

Rear Wheel Bearing Remover

Engine Repair Stand Axle Adapter-

Keyed Shaft

Pinion Depth Gauge-Complete With

Depth Micrometer and Gauge Block

Differential Bearing Adjuster Wrench

Pinion Shaft Drive
Nut

Differential Backlash
&
Runout

Gauge With Univ. Bracket, Dial

Indicator and Bracket

Differential Assembly Bench Holder

Axle Housing Dummy Bearings (1
pr.)

Differential Side Bearing Remover

Differential Bearing Cone Replacer

Axle Shaft
&
Bearing Remover

Wheel Bearing Seal Replacer
Ford Tool No.
Former No. Description

TOOL-4616
4616
Drive Pinion Bearing Cup Replacer

(Front)

T00L-4621-A 4621-A Drive Pinion Bearing and Rear Wheel

Bearing Replacer

T00L-4621-BA 4621-BA Rear Pinion Bearing Remover

TOOL-4628 4628 Pinion Rear Bearing Cup Replacer

T00L-4628-B 4628-B Pinion Bearing Front Cup Remover

T00L-4628-D 4628-D Pinion Rear Bearing Cup Remover

T64N-4676-A 4676 Pinion Shaft Oil Seal Replacer

T68P-4851-A
-
Universal Joint Flange Holder

T64N-4858-A 4858-B Companion Flange
&
Pinion Bearing

Replacer

T00L-4858-G 4858-G Pinion Flange Nut Adjusting Wrench

(Use With T64N-4858-A)

TOOL-4859 4859 Companion Flange Dust
Shield
Replacer

T00L-6565-AB
-
Dial Indicator Adapter

TOOL-6565
-
Dial Indicator

T00L-7657-J 7657-J Extension Housing Bushing
&

Seal Replacer

LINCOLN CONTINENTAL

Ford Tool
No.

T00L-4245-B

TOOL-4616

T00L-4621-A

T00L-4621-BA

TOOL-4628

T00L-4628-B

T64N-4628-B

T00L-4628-D

T64N-4676-A

T00L-4851-K

T64N-4858-A

T00L-4858-G

TOOL-4859

T00L-6565-AB

TOOL 6565

T00L-7657-J
Former
No.

4245-B

4616

4621-A

4621-BA

4628

4628-B

4628-D

4676

T57L-4851-A

4858-B

4858-G

4859

7657-J
Description

Wheel Bearing Seal Replacer

Drive Pinion bearing
Cup

Replacer (Front)

Drive Pinion Bearing
and
Rear

Wheel Bearing Replacer

Rear Pinion Bearing Remover

Pinion Rear Bearing
Cup
Replacer

Pinion Bearing Front
Cup
Remover

Pinion Rear Bearing Cup Remover

Pinion Shaft
Oil
Seal Replacer

Universal Joint Flange Holder

Companion Flange
&
Pinion Bearing

Replacer

Pinion Flange
Nut
Adjusting Wrench

(Use With T64N-4858-A)

Companion Flange Dust Shield

Replacer

Dial Indicator Adapter

Dial Indicator

Extension Housing Bushing
&

Seal Replacer
Ford Tool
No.
Former
No.

T50T-100-A

T50T-100-A&

TOOL-1175-AB

TOOL-1225-DA

TOOL-4000-C

TOOL-4005

TOOL-4020-B

TOOL-4201

TOOL-4201-C

TOOL-4204-A

TOOL-4205-B

TOOL-4205-C

T00L-4209-C

T00L-4221-C

T00L-4222-H

T00L-4235-C
Description

T50T-100-C Slide Hammer

1175-AE

1225-DA

4000-C

4005

4020-B

4201

4201-C

4205-B

4205-C

4209-C

4221-C

4222-H

4235-C
Seal Remover

Rear Wheel Bearing Remover

Differential Housing Spreader

Engine Repair Stand Axle Adapter-

Keyed Shaft

Pinion Depth Gauge-Complete With

Depth Micrometer
and
Gauge

Block

Pinion Shaft Drive
Nut

Differential Backlash
&
Runout

Gauge With Univ. Bracket, Dial

Indicator
and
Bracket

Limited Slip Differential Check

Differential Assembly Bench Holder

Axle Housing Dummy Bearings

(1
pi")

Pinion Tension Scale With

4209-C12 Socket

Differential Side Bearing Remover

Differential Bearing Cone Replacer

Axle Shaft
&
Bearing Removerprocarmanuals.com

05-01-01
05-01-01

Clutch
GROUP

5

PART
5-1
PAGE

Drive Shaft 05-01-01

PART
5-2

General Clutch Service 05-02-01
PART
5-3

Clutch

PART
5-4

Specifications
PAGE

05-03-01

05-04-01

PART
5-1
Drive Shaft

COMPONENT INDEX

DESCRIPTION

DRIVE SHAFT ANGLE CHECK

DRIVE SHAFT BALANCE CHECK

DRIVE SHAFT BALANCING

(Single Universal Joint)

DRIVE SHAFT DISASSEMBLY
AND

OVERHAUL

Single Universal Joint — Ford Design

Double Cardan Joint — Dana Design

Double Cardan Joint — Saginaw Design

DRIVE SHAFT REMOVAL
AND

INSTALLATION

DRIVE SHAFT RUNOUT CHECK
MODEL APPLICATION
All
Models

01-01

01-01

01-01

01-02

01-01
Ford
01-04

01-04

N/A

N/A
Mercury
01-04

01-04

N/A

N/A
Meteor
01-04

01-04

N/A

N/A
Cougar
01-04

01-04

N/A

N/A
Fairlane
01-04

01-04

N/A

N/A
Falcon
01-04

01-04

N/A

N/A
Montego
01-04

01-04

N/A

N/A
Mustang
01-04

01-04

N/A

N/A
Lincoln-
Continental
N/A

N/A

01-04

N/A
Thunderbird
N/A

N/A

N/A

01-05
Continental-
Mark
III
N/A

N/A

N/A

01-05

A page number indicates that the item
is for the
vehicle listed
at the
head
of
the column.

N/A indicates that
the
item
is not
applicable
to the
vehicle listed.

DRIVE SHAFT TESTS

DRIVE LINE BALANCE CHECK

If detailed parts
of the
drive shaft

are replaced
and
shaft vibration
is en-

countered after installation, disconnect

the shaft
at the
slip yoke. Rotate
the

slip yoke
180
degrees; then, reconnect

the shaft
to the
slip yoke.
If the
vibra-

tion persists, disconnect
the
shaft
at

the rear axle companion flange.
Ro-

tate
the
companion flange
180
degrees

and reconnect
the
shaft
to the
flange.
DRIVE LINE ANGLE CHECK

Vibration
or
"shudder" which
is no-

ticeable either
on
fast acceleration
or

when coasting, using
the
engine
for a

brake,
may be
caused
by the
rear axle

housing being loose
on the
rear

springs
or by
improper pinion angle.

Refer
to
Group
3,
Part
2 for
pinion

angle checking procedures.
If the
rear

axle U-bolts (Fairlane, Montego,

Mustang, Cougar, Falcon models
only)
are
loose, torque
the
nuts
to

specification.

DRIVE SHAFT RUNOUT CHECK

Using
a
dial indicator, check
the

runout
at
each
end and in the
middle

of
the
driveshaft.
The
rear check

should
be
made
on the
small tube
sec-

tion
of the
shaft between
the
balance

weights
and the
yoke welds. Drive-

shaft runout should
not
exceed 0.035

inch
at any one
point.

DESCRIPTION

The drive shaft
is the
means
of

transferring power from
the
engine,

through
the
transmission,
to the dif-
ferential
in the
rear axle,
and
then
to

the rear wheels.
The
drive shaft incor-

porates
two
universal joints
and a
slip
yoke
(Fig. 1) or two
double cardan

universal joints,
one at
each
end of the

shaft (Figs.
2 and 3).
Each double
procarmanuals.com