2012 SSANGYONG KORANDO torque

03-53190-01
2. TIGHTENING TORQUE
Part name Tightening torque Remark
1. Drive gear mounting bolt of differential carrier 166.6 to 176.4 Nm 10 EA
2. Reverse shaft mounting bolt 74.5 to 89.2 Nm
3. Transmission case mounting bolt 19.6 to 26.5 Nm 22 EA
4. Concentric slave cylinder mounting bolt 11.8 to 14.7 Nm 3 EA
5. Backup lamp switch 29.4 to 34.3 Nm
6. Neutral switch 29.4 to 34.3 Nm
7. Oil filler plug 58.8 to 78.4 Nm
8. Oil drain plug 58.8 to 78.4 Nm
9. Oil plug 58.8 to 78.4 Nm
10. Shift lever mounting nut 42.2 to 53.9 Nm
11. Selector lever mounting nut 42.2 to 53.9 Nm
12. Control shaft assembly mounting bolt 9.8 to 11.8 Nm 7 EA
13. Guide bolt 42.2 to 53.9 Nm

03-73190-01
Front view Rear view
1. OVERVIEW
This vehicle is equipped with WM6F1 M/T (Manual Transmission). This transmission is integrated with an
axle and designed to maximize the driving performance by optimizing the gear ratio according to the
engine torque.
WM6F1 M/T assembly

04-4
2. TIGHTENING TORQUE
DescriptionTightening torque
Amount
Clutch housing boltUpper (17 mm) 85.0 to 100 Nm 2
Front (14 mm)54.0 Nm + 20°1
Rear (14 mm) 51.3 to 56.7 Nm 2
Lower (14 mm) 56.0 to 62.0 Nm 4
Pressure plate assembly bolt (Hexagon 6 mm) 21.0 to 27.0 Nm 6
Concentric slave cylinder bolt (Hexagon 5 mm) 10 to 16 Nm 3
Concentric slave cylinder oil pipe nut 24.5 to 28.4 Nm Remove the nut if it is
necessary. (Once
removed, apply the
Loctite on the thread
before installation.)
Master cylinder nut (12 mm) 7.8 to 17.6 Nm
Master cylinder oil pipe nut (10 mm) 14.7 to 17.6 Nm
Master cylinder push rod lock nut 8.8 to 13.7 Nm
Clutch oil chamber screw and bolt (10 mm) 3.9 to 7.8 Nm
Oil pipe nut (10 mm) 14.7 to 17.6 Nm
Clutch pedal mounting nut (12 mm) 7.8 to 17.6 Nm
Stopper bolt 16 to 22 Nm

04-90000-00
3. DUAL MASS FLYWHEEL (DMF)
The dual mass flywheel (DMF) is of having a mass divided into two halves.
While one mass is connected to the engine crankshaft, which is affected by the mass moment of inertia
of the engine, the other mass is affected by one of the transmission.
The divided dual masses are connected to the coil spring and damping system internally.
The DMF has the following benefits: ▶
Reducing fuel consumption by lowering engine speed
Reducing rattling noise and vehicle vibration in all driving ranges
Reducing synchronization wear
Facilitating gear change
Protecting power train parts by preventing excessive load from being delivered -
-
-
-
-
Primary flywheel
Secondary flywheel
Arc damper spring
Torque limiter
Ring gear 1.
2.
3.
4.
5.

05-33310-02
1. SPECIFICATION
Description Specification
Structure 2-piece type with CV joint, spider, and rubber
coupling
Weight below 12.0 kg
Joint type CV joint, spider, rubber coupling
Spider Numbers one (installed on center bearing side)
External diameterØ24 mm
Overall sizeØ62.5 mm
Dimension
(Length x Dia.)No.1 shaft (TM to spider)1,069 x Ø60 mm
No. 2 shaft (spider to axle)847.5 x Ø60 mm
Runout of tube (after installation) 0.3 mm
Unbalance 80g.mm @ 3,000rpm
(second measurement: 120 g.mm)
U-joint Starting torque 0.3 to 0.7 Nm
Minimum starting angle18˚
Amount of grease in CV joint 210+-10g
2. TIGHTENING TORQUE
Fastener Tightening torque
Bolt/nut for rubber coupling (rear axle side) 39.2 to 49.0 Nm
Bolt/nut for CV joint (transaxle side) 29.4 to 39.2 Nm
Mounting bolt for center bearing 58.8 to 68.6 Nm

05-4
1. OVERVIEW
The propeller shaft is a thin steel pipe which transfers the power from the transmission to the E-coupling,
and has high resistance to torsion and bending.
The propeller shaft has the universal joint (cross axle) mounted on the center of the shaft and splines for
the slip joint on the E-coupling side to accommodate the height and length changes which occur as the
shaft rotates at high speed.
And the rubber bushing for center bearing in the center of the propeller shaft keeps the balance of the
shaft and absorbs its vibration.
Function of propeller shaft ▶
Transmits driving torque.
Accommodates the angle change (universal joint / CV joint).
Accommodates the axial length change (splines for the slip joint). -
-
-
CV joint
Universal yoke and
center bearingUniversal yoke and
rubber coupling

06-54110-01
2. TORQUE STEER
Torque steer is a condition in which a vehicle pulls to either side because of an inequality of traction
between the left and right driving wheels when a large torque is applied to the front wheel of a FWD or
4WD.
Especially for a FWD vehicle, this mechanical condition can cause the steering effect because of the
output torque (rotational force) produced by the gyroscope.
This rotational force is due to the difference in distance between the left/right front wheels and the
transaxle which leads to the change of the shaft bending angle.
To prevent this, the intermediate shaft, called Intermediate shaft, is employed on each side so that the
bending angle and the length are kept constant.
A gyroscope is a device for measuring or maintaining orientation, based on the principles of angular
momentum. In essence, a mechanical gyroscope is a spinning wheel or disk whose axle is free to
take any orientation. Although this orientation does not remain fixed, it changes in response to an
external torque much less and in a different direction than it would without the large angular
momentum associated with the disk's high rate of spin and moment of inertia. Since external torque
is minimized by mounting the device in gimbals, its orientation remains nearly fixed, regardless of
any motion of the platform on which it is mounted.

07-30000-00
1. SPECIFICATION
Unit Description Specification
PTU
(Power Transfer Unit)Gear ratio 2.929
Numbers of helical gear 22/39
Numbers of hypoid gear 23/38
Oil IDEMITSU LW 80W/90
Oil capacity≒ 0.58 L
Operating temperature-40 to 150°C
E-coupling Maximum torque 1,000 Nm
Operating temperature-40 to 120°C
Numbers of main clutch Outer: 11, Inner: 11
Numbers of pilot clutch Outer: 4, Inner: 3
Coil windings 240 turns
Weight 8 kg
Oil ECF107 (ATF based EMCD special oil)
Oil capacity 0.145 L (145 ml)