wheel torque SSANGYONG MUSSO 2003 User Guide

TIRES AND WHEELS 2E-7
To correct unbalance, install equal weights 180 ° opposite
each other, one on the inside of the wheel and one on the outside, at the point of unbalance.
Balance Weight
6. Cautions for installation and removal. Clean the mounting surfaces of hub and wheel.
Do not apply grease or oil on the nuts and bolts (It will
cause looseness and poor tightening).
Using a jack, lift up the tire about 3cm from the ground.
Tighten nuts in a criss-cross pattern 2-3 times.10g
0.4oz
20g
0.7oz 30g
1.10oz 40g
1.40oz 50g
1.80oz 60g
2.1oz
Steel : 80 - 120Nm
Aluminium : 110 - 130NmTighten Torque

FRONT DRIVE AXLE 3A-9
Removal & Installation Procedure
1. Remove the tire.Installation Notice
Steel Wheel
Aluminum Wheel
Tightening Torque80 - 120 Nm
110 - 130 Nm
2. Remove the autolocking hub vacuum hose.
3. With ABS Remove the wheel speed sensor from the steering knuckle. Installation Notice
4. Remove the mounting bolts and pull off the caliper assembly. Installation Notice
Tightening Torque 6 - 8 Nm
Hose Bolt
Mounting Bolt
Tightening Torque25 - 35 Nm
85 - 105 Nm
Notice Be careful not to damage the brake hose.

REAR DRIVE AXLE 3D-7
Removal & Installation Procedure
1. Remove the tire.Installation Notice
2. Release the parking brake. Steel Wheel
Aluminum Wheel
Tightening Torque
3. Remove the bolts and the brake caliper.
Installation Notice Be careful not to damage the brake hose.
Tightening Torque 85 - 100 Nm
4. Remove the brake disc. Notice
To remove the disc, install the bolts (M8 x 1.25) into the service hole and uniformly tighten the bolts.
5. Disconnect the parking brake cable.
80 - 120 Nm
110 - 130 Nm

HYDRAULIC BRAKES 4A-7
MAINTENANCE AND REPAIRON-VEHICLE SERVICE
BLEEDING THE BRAKES For Master Cylinder Replacement
1. Add oil after master cylinder replacement.
2. Run the engine and depress the brake pedal several times to build pressure and then keep the pedal fully depressed.
3. Loosen the screws of primary and secondary pipe at the master cylinder outlets to bleed air.
4. Repeat above step No.3 several times until there are no more air bubbles.
5. Bleed air in the system at the hydraulic unit outlet pipe and wheel if pressure building is not enough by depressing the pedal only after above air bleeding.
For Caliper and Brake Hose Replacement
1. Check the oil level from the oil reservoir and refill if necessary.
2. Run the engine and depress the pedal several times to build pressure and then keep the pedal fully depressed.
3. Connect a vinyl tube to the caliper breather and prepare a container to coentain brake oil.
4. Loosen the breather screw until there are no more bubbles.
5. Bleed air in the system at four (4) wheels in order as shown in right figure if pressure building is not enough by depressing the pedal after above air bleeding.
Tightening Torque
9 - 14 NmItem
Front Bleeder Screw
Rear Bleeder Screw
Notice
Do not reuse the bled brake fluid.
Always bleed the air after replacing brake fluid or
master cylinder, caliper, brake hose and pipe.
Always operate in normal order.

FRONT DISC BRAKES 4D-3
Removal & Installation Procedure
1. MANDO Brake
Tightening Torque 25 - 35 Nm
2. PBR Brake Remove the eye-hose bolt and disconnect the hose. Installation Notice
Tightening Torque 15 - 18 Nm
3. Remove the wheel speed sensor (for ABS vehicies). Installation Notice
Tightening Torque 6 - 8 Nm
4. Remove the mounting bolts and then caliper assembly. Installation Notice
Tightening Torque 85 - 105 Nm
Remove the hose mounting nut and disconnect the hose. Installation Notice

REAR DISC BRAKES 4E-3
Tightening Torque 15 - 18 Nm
Tightening Torque 85 - 105 Nm
Removal & Installation Procedure
1. Remove the eye-hose bolt and disconnect the hose.
Installation Notice
2. Unscrew the mounting bolts and remove the brake caliper assembly. Installation Notice
3. Pull out the brake pads. Replace pads if necessary. Notice Always change the all pads on one wheel at a time.
4. Installation should follow the removal precedure in the reverse order.
5. Bleed the air from the system.

ANTILOCK BRAKE SYSTEM 4F-7
ABD SYSTEM DESCRIPTION
General: The Automatic Brake Differential Lock (ABD) is a traction system by means of brake intervention only, available in a low speed range (< 60kph). It workes on µ-split roads with sidewise different friction coefficients.
The spinning driven wheel is braked and the drive torque can be transferred to the wheel on the high- µ side.
During ABD active, the ABD information lamp is blinking.The temperature of the brakes is calculated by a mathematical model and ABD is switched passive if the calculated temperature is greater than a threshold value(500 °C).
ABD is permitted again, when the calculated temperature is less than 350 °C.
Control Algorithm: The input signals for the control algorithm are the filteredwheel speed signals from the ABS speed processing. With the speed difference of the driven wheels, the control deviation is calculated. If the control deviation exceeds a certain threshold value,
the wheel with the greater slip is braked actively. The threshold value depends on the vehicle speed:It is reduced with increasing vehicle speed down to a constant value.
Pressure Modulation: Depending on the control deviation and the wheel acceleration of the spinning wheel, pressure increase, hold and decrease are made.
The pressure modulation is done with the conventional control with the valves. ASV, USV, EV and AV according the the following table:
Speed Range: ABD is available in the speed range 60 kph.
Above 60 kph vehicle speed, ABD is passive. It is possible to initiate ABD operation up to a vehicle speed of 55kph.
Increase Open
Open
Open
ASV Decrease
Hold
Closed
Closed
Closed
Closed
Closed
Open
Open
Closed
Closed
USV
EVAV
Speed difference driven wheels [kph]
18
6 12 60ABD operation
Vehicle speed[kph]

5A-42 AUTOMATIC TRANSMISSIONPOWER TRAIN SYSTEM
The Power Train System consists of: A torque converter with single face lock-up clutch
Four multi-plate clutch assemblies
Two brake bands
Two one-way clutches
Planetary gearset
Parking mechanism
A conventional six pinion Ravigneaux compound planetary gearset is used with overdrive (fourth gear) being obtained
by driving the carrier.
The cross-sectional arrangement is very modular in nature. Four main sub-assemblies are installed within the case
to complete the build. These sub-assemblies are: Gearset-sprag-centre support
C1 -C2-C3-C4 clutch sub-assembly
Pump assembly
Valve body assembly
One, or a combination of selective washers are used between the input shaft flange and the number 4 bearing to
control the transmission end float. This arrangement allows for extensive subassembly testing and simplistic finalassembly during production.
A general description of the operation of the Power Train System is detailed below. Refer to table 4.1 and figure 4.1.
First gear is engaged by applying the C2 clutch and locking the 1-2 One Way Clutch (1-2 OWC). The 1-2 shift is
accomplished by applying the B1 band and overrunning the 1-2 OWC. The 2-3 shift is accomplished by applying the
C1 clutch and releasing the B1 band. The 3-4 shift is accomplished by re-applying the B1 band and overrunning the
3-4 OWC. Reverse gear is engaged by applying the C3 clutch and the B2 band.
The C4 clutch is applied in the Manual 1,2 and 3 ranges to provide engine braking. In addition, the C4 clutch is also
applied in the Drive range for second and third gears to eliminate objectionable freewheel coasting. The B2 band is
also applied in the Manual 1 range to accomplish the low-overrun shift.
Both the front and rear servos are dual area designs to allow accurate friction element matching without the need for
secondary regulator valves. All the friction elements have been designed to provide low shift energies and high static
capacities when used with the new low static co-efficient transmission fluids. Non-asbestos friction materials are used throughout.
Gear
First
Second ThirdFourth
Reverse
Manual 1 Gear
Ratio 2.741 1.508 1.0000.7082.4282.741 C1
XX C2
X X XX X C3
X C4
X X B1
X X X B2
X X 1-2
OWC X 3-4
OWC X XX LU
CLUTCH
X*X
ELEMENTS ENGAGED
* For Certain Vehicle Applications, Refer to the Owner's Manual.
Table 4.1 - Engaged Elements vs Gear Ratios

5C-10 CLUTCH Removal & Installation Procedure
1. Remove the starter motor. Install the special tool to theflywheel through the starter motor mounting holes.
Tightening Torque 47 Nm
Engine Lock 602 589 00 40 00
2. Unscren the release cylinder mounting bolts and remove the release cylinder. Installation Notice
3. Unscrew the clutch housing bolts and remove the clutch housing, release fork and release bearing.Installation Notice
4. Insert the centering pin into the clutch spline. Loosen the clutch cover bolts 1/2 turn in crisscross sequence until the spring tension is released. Notice
Do not remove the bolts at a time, or clutchcover can be damaged or deformed.
Centering Pin 661 589 00 15 00
Tightening Torque 30 - 40 Nm

CLUTCH 5C-11
5. Unscrew the bolts and remove the clutch cover, pressure
plate and clutch disc. NoticeBe careful not to drop the pressure plate and clutch disc.Installation Notice
Tightening Torque 21 - 27 Nm
6. Installation should follow the removal procedure in the reverse order. Notice
Before installation, clean oil and grease on the flywheel surface.
Do not clean the clutch disc and release bearing insolvent.