Suzuki Grand Vitara JB627. Manual - part 135

2D-2 Wheels and Tires: 

Replacement Tires
When replacement is necessary, the original equipment 
type tire should be used. Refer to the “Tire Placard”. 
Replacement tires should be of the same size, load 
range and construction as those originally on the vehicle. 
Use of any other size or type tire may affect ride, 
handling, speedometer / odometer calibration, vehicle 
ground clearance and tire or snow chain clearance to the 
body and chassis.
It is recommended that new tires be installed in pairs on 
the same axle. If necessary to replace only one tire, it 
should be paired with the tire having the most tread, to 
equalize braking traction.

WARNING

!

 

Do not mix different types of tires on the 
same vehicle such as radial, bias and bias-
belted tires except in emergencies, because 
handling may be seriously affected and may 
result in loss of control.

 

The metric term for tire inflation pressure is the kilo 
pascal (kPa). Tire pressures is usually printed in both 
kPa and kgf/cm

2

 on the “Tire Placard”.

Metric tire gauges are available from tool suppliers.
The chart, shown the table, converts commonly used 
inflation pressures from kPa to kgf/cm

2

 and psi.

Wheels Description

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Wheel Maintenance
Wheel repairs that use welding, heating, or peening are 
not approved. All damaged wheels should be replaced.

Replacement Wheels
Wheels must be replaced if they are bent, dented, have 
excessive lateral or radial runout, air leak through welds, 
have elongated bolt holes, if lug nuts won’t stay tight, or 
if they are heavily rusted. Wheels with greater runout 
than shown in the following may cause objectional 
vibrations.
Replacement wheels must be equivalent to the original 
equipment wheels in load capacity, diameter, rim with 
offset and mounting configuration. A wheel of improper 
size or type may affect wheel and bearing life, brake 
cooling, speedometer / odometer calibration, vehicle 
ground clearance and tire clearance to body and 
chassis.

How to Measure Wheel Runout
To measure the wheel runout, it is necessary to use an 
accurate dial indicator. The tire may be on or off the 
wheel. The wheel should be installed to the wheel 
balancer of the like for proper measurement.
Take measurements of both lateral runout “a” and radial 
runout “b” at both inside and outside of the rim flange. 
With the dial indicator set in place securely, turn the 
wheel one full revolution slowly and record every reading 
of the indicator.
When the measured runout exceeds the specification 
and correction by the balancer adjustment is impossible, 
replace the wheel. If the reading is affected by welding, 
paint or scratch, it should be ignored.

Wheel Runout

Metric Lug Nuts and Wheel Studs
All models use metric lug nuts and wheel studs.

Metric lug nuts and wheel studs size
M12 x 1.25

If a broken stud is found, see “Front Wheel Hub, Disc, 
Nut and Bearing Check in Section 2B”, “Rear Wheel 
Disc, Nut and Bearing Check in Section 2C”, “Front 
Wheel Hub Assembly Removal and Installation in 
Section 2B” and/or “Rear Wheel Hub Assembly Removal 
and Installation in Section 2C”, for Note and 
Replacement procedure.

kPa

kgf/cm

2

psi

bar

Conversion:
1 psi = 
6.895 kPa
1 kgf/cm

2

 = 

98.066 kPa
1bar = 
100 kpa

160

1.6

23

1.6

180

1.8

26

1.8

200

2.0

29

2.0

220

2.2

32

2.2

240

2.4

35

2.4

260

2.6

38

2.6

280

2.8

41

2.8

300

3.0

44

3.0

Lateral runout 

limit

Radial runout 

limit

Steel wheel

1.20 mm 

(0.047 in.)

0.70 mm 

(0.027 in.)

Aluminum wheel

0.30 mm 

(0.011 in.)

0.30 mm 

(0.011 in.)

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Wheels and Tires:  2D-3

Irregular and/or Premature Wear Description

S6JB0B2401003

Irregular and premature wear has many causes. Some 
of them are as follows: incorrect inflation pressures, lack 
of tire rotation, driving habits, improper alignment.
If the following conditions are noted, rotation is 
necessary:
• Front tire wear is different from rear.
• Uneven wear exists across the tread of any tire.
• Both side of front tire wears are not even.
• Both side of rear tire wears are not even.
• There is cupping, flat spotting, etc.
A wheel alignment check is necessary if following 
conditions are noted:
• Both side of front tire wears are not even.
• Wear is uneven across the tread of any front tire.
• Front tire treads have scuffed appearance with 

“feather” edges on one side of tread ribs or blocks.

Wear Indicators Description

S6JB0B2401004

Original equipment tires have built-in tread wear 
indicators (1) to show when they need replacement.
These indicators (1) will appear as 12 mm (0.47 in) wide 
bands when the tire tread depth becomes 1.6 mm (0.063 
in).
When the indicators (1) appear in 3 or more grooves at 6 
locations, tire replacement is recommended.

Radial Tire Waddle Description

S6JB0B2401005

Waddle is side to side movement at the front and/or rear 
of the vehicle. It is caused by the steel belt not being 
straight within the tire. It is most noticeable at a low 
speed, 8 to 48 kph (5 to 30 mph).
It is possible to locate the faulty tire by road testing the 
vehicle. If it is on the rear, the rear end of the vehicle 
shakes from side to side or “waddles”. To the driver in 
the seat, it feels as though someone is pushing on the 
side of vehicle.
If the faulty tire is on the front, waddling is more visual. 
The front sheet metal appears to be moving back and 
forth and the driver feels as though he is at the pivot 
point in vehicle.
Waddle can be quickly diagnosed by using Tire Problem 
Detector (TPD) and following the equipment 
manufacture’s recommendations.
If TPD is not available, an alternative method of 
substituting known-good tire / wheel assemblies can be 
used as follows, although it takes a longer time.

[A]: Hard Cornering, under inflation or lack of tire rotation
[B]: Incorrect wheel alignment, tire construction not uniform or wheel 

heavy acceleration

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2D-4 Wheels and Tires: 

1) Ride vehicle to determine whether the front or rear waddles.
2) Install tires and wheels that are known to be good (on similar vehicle) in place of those on waddling end of vehicle. 

If waddling end cannot be identified, substitute rear ones.

3) Road test again. If improvement is noted, reinstall originals one at a time till waddle causal tire is found. If no 

improvement is noted, install known-good tires in place of all four. Then reinstall originals in the same manner.

Equipment manufacture’s recommendations

Inflate tires to recommended pressure

Road test vehicle on level unrouned road in both directions

Switch front tires side to side and road test again

Lead corrected,

if roughness results, replace tires

Leads in same direction

Leads reverses direction

Put tires back in original position 
and check alignment

Install a known-good tire on one front side

Lead remains install a known-good
tire in place of other front tire

Lead remains known-good tires are not good

Lead corrected replace tire

Lead corrected replace tire

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Wheels and Tires:  2D-5

Radial Tire Lead / Pull Description

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“Lead / Pull” is the deviation of the vehicle from a straight 
path on a level road even with no pressure on the 
steering wheel.
Lead is usually caused by the following conditions.
• Improper tire and wheel alignment.
• Uneven brake assemblies.
• Tire construction.
The way in which a tire is built can produce lead in a 
vehicle. An example of this is placement of the belt. Off 
center belts on radial tires can cause the tire to develop 
a side force while rolling straight down the road. If one 
side of the tire has a little larger diameter than the other, 
the tire will tend to roll to one side. This will develop a 
side force which can produce vehicle lead.
The procedure in the figure (Lead Diagnosis) should be 
used to make sure that wheel alignment is not mistaken 
for tire lead.
• Part of the lead diagnosis procedure is different from 

the proper tire rotation pattern currently in the owner 
and service manuals. If a medium to high mileage tire 
is moved to the other side of the vehicle, be sure to 
check that ride roughness has not developed

• Rear tires will not cause lead.

Balancing Wheels Description

S6JB0B2401007

There are two types of wheel and tire balance: static and 
dynamic. Static balance, as shown in figure, is the equal 
distribution of weight around the wheel. Wheels that are 
statically unbalanced cause a bouncing action called 
tramp. This condition will eventually cause uneven tire 
wear.

Dynamic balance, as shown in figure, is the equal 
distribution of weight on each side of the wheel 
centerline so that when the tire spins there is no 
tendency for the assembly to move from side to side. 
Wheels that are dynamically unbalanced may cause 
shimmy.

1. Heavy spot wheel tramp

[A]: Before correction

2. Balance weights addition point

[B]: Corrective weights

3. C/L of spindle

1. Heavy spot wheel shimmy

[C]: Before correction

2. Balance weights addition point

[D]: Corrective weights

3. C/L of spindle

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