204-04A Wheels and Tires	2014 Fiesta
Diagnosis and Testing	Procedure revision date: 05/2/2013

Wheels and Tires

Preliminary Inspection

Verify the customer concern by carrying out a road test on a smooth road. If any vibrations are apparent, Refer to the Symptom Chart: NVH.

To maximize tire performance, inspect for signs of incorrect inflation and uneven wear, which may indicate a need for balancing, rotation or front suspension alignment.

Correct tire pressure and driving techniques have an important influence on tire life. Heavy cornering, excessively rapid acceleration and unnecessary sharp braking increase tire wear.

Correct tire pressure and driving techniques have an important influence on tire life. Heavy cornering, excessively rapid acceleration and unnecessary sharp braking increase tire wear.

Replacement tires must follow the recommended:

tire sizes
speed rating
load range
tire construction type

The use of any other tire/wheel size, load range or type can seriously affect:

ride
handling
speedometer/odometer calibration
vehicle ground clearance
tire clearance between the body and chassis
wheel bearing life
braking performance

New wheels need to be installed when the vehicle wheels:

are bent
are cracked
are dented
are heavily corroded
are leaking
have elongated wheel hub bolt holes
have excessive lateral or radial runout

Use only the tire sizes recommended on the tire label located on the driver door or door pillar. Larger or smaller tires can damage the vehicle, affect durability and require changing the speedometer calibration. Make sure wheel size and offsets match those recommended for the tire in use.

Inspect the tires for signs of uneven wear. The following descriptions identify the type of wear:

Check the tires for:

cuts
stone bruises
abrasions
blisters
embedded objects

Check the valve stems for:

cracks
cuts

Install a new valve stem when damage is found or anytime a new tire is installed.

Tread wear indicators are molded into the bottom of the tread grooves. Install a new tire when the indicator bands become less than 2/32 inch.

Tire Wear

Tire wear is commonly defined as a loss of tread depth. Tire tread wear occurs due to friction with the contact surface (road/pavement). The tread should wear down uniformly all the way around the circumference of the tire and all the way across the tread face. When this does not occur, the tire may have abnormal/incorrect wear.

Normal Tire Wear

Normal tire wear is identified as even wear around and across the tread. Because there are many factors (driving style, road surfaces, type of vehicle, type of tire) that can affect tire wear, there is no absolute mileage expectation for a normal wear condition. A tire is considered worn-out when the tread has worn to the level of the tread-wear indicators.

Abnormal/Incorrect Tire Wear

Abnormal/incorrect tire wear is identified as tire wear that is not even around or across the tread and that creates performance-related issues.

Abnormal/incorrect wear can be caused by numerous factors, some of which include driving style (aggressive, passive), climate (hot, cold), road conditions, vehicle loading and maintenance (correct tire pressure, rotation intervals and balance). It is important to determine the root cause of wear on a vehicle before carrying out repair. Tires exhibiting abnormal/incorrect tire wear may still be serviceable provided the minimum tread depth is greater than 2/32 inch and the tire is not causing a vehicle performance (noise/vibration) concern.

Inner Edge/Shoulder Wear

Inner edge (or shoulder) wear occurs on the inside edge of the tire and is usually caused by excessive toe out and/or excessive negative camber. If the tread depth of the outer shoulder is at least 50% greater than the tread depth of the inner shoulder, the tire is experiencing inner edge/shoulder wear. To determine whether tires have this type of wear, visually inspect the tires. In some instances, it may be necessary to measure the tread depth of each rib and compare it to the shoulder.

NOTE: Right front tire shown, others similar.

Outer Edge/Shoulder Wear

Outer edge (or shoulder) wear occurs on the outside edge of the tire and is usually caused by excessive toe in and/or excessive positive camber. If the tread depth of the inner shoulder is at least 50% greater than the tread depth of the outer shoulder, the tire is experiencing outer edge/shoulder wear. To determine whether tires have this type of wear, visually inspect the tires. In some instances, it may be necessary to measure the tread depth of each rib and compare it to the shoulder.

NOTE: Right front tire shown, others similar.

Heel/Toe Wear

Heel/toe wear (also known as feathering) occurs along the outside or inside edge/shoulder of the tire. To determine whether tires have this type of wear, visually inspect the tires in both the inside and outside shoulder ribs. In some instances, it may be necessary to measure the difference in tread depth of leading versus trailing edge of each lug in the inside and outside shoulder rib.

Diagonal Wear

Diagonal wear occurs diagonally across the tread area and around the circumference of the tire. To determine whether tires have this type of wear, visually inspect the tires to determine if the wear pattern runs diagonally across the tread and around the circumference of the tire. In some instances, the difference in tread depth along the diagonal wear pattern may need to be measured.

Symptom Chart: Tire Wear

Symptom Chart(s)

Diagnostics in this manual assume a certain skill level and knowledge of Ford-specific diagnostic practices.
REFER to: Diagnostic Methods (100-00 General Information, Description and Operation).

Condition	Possible Sources	Action
Inner edge/shoulder wear	Excessive toe out and/or negative camber Incorrect wheel and tire assembly rotation intervals High-speed cornering	GO to Pinpoint Test A
Outer edge/shoulder wear	Excessive toe in and/or positive camber Incorrect wheel and tire assembly rotation intervals High-speed cornering	GO to Pinpoint Test B
Heel/toe wear	Excessive toe in/out Incorrect wheel and tire assembly rotation intervals	ROTATE the wheel and tire assemblies. CHECK the alignment, ADJUST as necessary.
Diagonal wear	Excessive toe in/out Incorrect tire rotation intervals	GO to Pinpoint Test C
Diagonal wear	Loose, worn or damaged suspension components	Refer to the appropriate section in Group 204 for the procedure.

Symptom Chart: NVH

NOTE: NVH symptoms should be identified using the diagnostic tools that are available. For a list of these tools, an explanation of their uses and a glossary of common terms, refer to Section 100-04. Since it is possible any one of multiple systems may be the cause of a symptom, it may be necessary to use a process of elimination type of diagnostic approach to pinpoint the responsible system. If this is not the causal system for the symptom, refer back to Section 100-04 for the next likely system and continue diagnosis.

Condition	Possible Sources	Action
Wobble or shimmy	Bent wheel	INSTALL a new wheel as necessary.
	Damaged tire	INSTALL a new wheel as necessary.
	Loose wheel nuts	TIGHTEN to specification.
High-speed shake	Tires/wheels	REFER to Wheel and Tire Runout Component Tests in this section.
Vehicle vibration	Tires/wheels	REFER to Wheel and Tire Runout Component Tests in this section.

Pinpoint Tests

For a description of the various tire wear patterns, refer to Inspection and Verification.

Pinpoint Test A: Inner Edge/Shoulder Wear

Possible Sources:

Excessive toe out
Incorrect wheel and tire rotation

PINPOINT TEST A : INNER EDGE, SHOULDER WEAR

A1 MEASURE THE TREAD DEPTH

•Using a tread depth gauge or similar tool, measure the inside edge/shoulder tread depth.

Is the tread depth greater than 1.588 mm (0.0625 in) ?

Yes

ROTATE the wheel and tire assemblies.
CHECK and ADJUST the toe to nominal +0.15 degrees (toe in). CHECK and ADJUST caster and camber to nominal.
Refer to the appropriate section in Group 204 for the procedure.

No	INSTALL a new tire(s). CHECK and ADJUST the toe to nominal. Refer to the appropriate section in Group 204 for the procedure.

Pinpoint Test B: Outer Edge/Shoulder Wear

Possible Sources:

Excessive toe in
Incorrect wheel and tire rotation

PINPOINT TEST B : OUTER EDGE, SHOULDER WEAR

B1 MEASURE THE TREAD DEPTH

•Using a tread depth gauge or similar tool, measure the outside edge/shoulder tread depth.

Is the tread depth greater than 1.588 mm (0.0625 in) ?

Yes

CHECK and ADJUST the toe to nominal -0.15 degrees (toe out). CHECK and ADJUST caster and camber to nominal.
Refer to the appropriate section in Group 204 for the procedure.

No	INSTALL a new tire(s). CHECK and ADJUST the toe to nominal. Refer to the appropriate section in Group 204 for the procedure.

Pinpoint Test C: Diagonal Wear

Possible Sources:

Incorrect wheel and tire rotation
Excessive toe in/out
Incorrect tire inflation
Loose, worn or damaged suspension components

PINPOINT TEST C : DIAGONAL WEAR

C1 MEASURE THE TREAD DEPTH

Using a tread depth gauge or similar tool, measure the tread depth of the wear pattern.

Is the tread depth greater than 1.588 mm (0.0625 in) ?

Yes

If no performance concerns (noise/vibration) are present, the tire can remain in service. CHECK the air pressure in the tires, ADJUST as necessary. ROTATE the wheel and tire assemblies. INSPECT for loose, worn or damaged suspension components. INSTALL new components as necessary. CHECK the alignment and ADJUST as necessary.
Refer to the appropriate section in Group 204 for the procedure.

INSTALL a new tire(s). CHECK the air pressure in the tires, ADJUST as necessary. ROTATE the wheel and tire assemblies. INSPECT for loose, worn or damaged suspension components. INSTALL new components as necessary. CHECK the alignment and ADJUST as necessary.
Refer to the appropriate section in Group 204 for the procedure.

Component Tests

Radial Runout

Radial runout is the egg-shaped deviation from a perfect circle and is measured perpendicular to the circumference. On a wheel and tire assembly, this means measuring the center tire tread rib. The center rib is indicative of the condition of the tire as a whole. Total runout is the difference between the maximum-to-minimum gauge reading. The high spot is the location of maximum runout.

Item	Description
1	High spot
2	Low spot

Radial Runout Measurement - Loaded Hunter Road Force® Method

NOTE: Do not perform diagnosis of tire/wheel vibration on tires with less than 198.8 mi (320 km). Some initial tire/wheel vibration issues (such as flat spotting) may correct themselves after the tires have been in service for 198.8 mi (320 km). This procedure is intended to assist with the diagnosis of wheel and tire assembly runout and/or force variation issues. The Hunter Road Force® 9700 Series Wheel Balancer measures the wheel and tire assembly's loaded runout and the tire's radial spring rate. The balancer then converts the runout into pounds of force (termed as Road Force). Measuring loaded runout (Road Force) is more effective than measuring unloaded runout using a dial indicator.

Using a tire crayon, record the vehicle position on the inward sidewall of all 4 tires.

Remove the wheel and tire assemblies.

REFER to: Wheel and Tire (204-04A Wheels and Tires, Removal and Installation).

NOTE: Use only the 204-354 any time tire pressures are measured to be sure that accurate values are obtained.
Make sure the tire pressures are set to the correct pressure as indicated on the VC label.

NOTICE: Make sure the correct wheel balancer adapters are used when mounting the assembly to the wheel balancer or damage to the wheel may occur.

NOTE: Make sure the wheel and tire assembly is clean and free of foreign material prior to installation on the balancer.

NOTE: The wheel balancer inflation station must be turned off for tires with inflation pressures of 414 kPa (60 psi) or above.
Mount the wheel and tire assembly on a suitable wheel balancer using the correct wheel balancer adapters as shown. Refer to the list of recommended wheel balancer adapters on the PTS web-site.

Item	Description
1	Wheel balancer
2	Cone
3	Wheel and tire assembly
4	Finger plate
5	Balancer wing nut

Measure the Road Force®.

Temporarily mark the high spot and the Road Force® value on the sidewall of the tire. If the wheel and tire assembly Road Force® value is greater than 9 kg (20 lb), carry out the Match Mounting procedure to optimize the wheel and tire assembly.
If the wheel and tire assembly Road Force® value is 9 kg (20 lb) or less, permanently mark the high spot and the Road Force® value on the inward sidewall of the tire for reference during future wheel and tire service. Balance the assembly and install the wheel and tire on the vehicle using the Wheel-to-Hub Optimization procedure.

Radial Runout Measurement - Dial Indicator Method

NOTE: Do not perform diagnosis of tire/wheel vibration on tires with less than 320 km (200 mi). Some initial tire/wheel vibration issues (such as flat spotting) will correct themselves after the tires have been in service for 320 km (200 mi).

NOTE: Loaded run-out measurements are the preferred method for verifying tire serviceability. While a dial indicator can be used to optimize the position of the tire on the wheel, the unloaded run-out measurement cannot accurately determine if the tire should be removed from service.

NOTE: Perform the following procedures if normal diagnostics leads to a potential runout issue.

NOTE: Some vehicles may exhibit a wheel and tire vibration caused by excessive runout. Radial runout measurements can be taken using a dial indicator and should be measured with the wheel and tire assembly mounted on a suitable wheel balancer. The dial indicator should be mounted securely to eliminate gauge movement when measuring runout.

NOTE: Use only the 204-354 any time tire pressures are measured to be sure that accurate values are obtained.

Make sure the tire pressures are set to the correct pressure as indicated on the VC label.

Using a tire crayon, record the vehicle position on the inward sidewall of all 4 tires.

Remove the wheel and tire assemblies.

REFER to: Wheel and Tire (204-04A Wheels and Tires, Removal and Installation).

NOTICE: Make sure the correct wheel balancer adapters are used when mounting the assembly to the wheel balancer or damage to the wheel may occur.

NOTE: Make sure the wheel and tire assembly is clean and free of foreign material prior to installation on the balancer.
Mount the wheel and tire assembly on a suitable wheel balancer using the correct wheel balancer adapters as shown. Refer to the list of recommended wheel balancer adapters on the PTS web-site.

Item	Description
1	Wheel balancer
2	Cone
3	Wheel and tire assembly
4	Finger plate
5	Balancer wing nut

NOTE: Masking tape can be applied on the center tread rib to allow for a smoother measuring surface. Some fluctuation of the gauge reading is expected. Observe the overall sweep of the gauge from the highest to the lowest spot on the tire.
Position a suitable dial indicator and stand with the dial indicator on the center tread rib.
1. Rotate the wheel and tire assembly (or wheel) to locate the low spot.
1. Adjust the runout gauge to read 0.
1. Rotate the wheel and tire assembly one complete revolution to make sure the low spot has been found and the dial indicator returns to a 0 reading.

While slowly and constantly rotating the wheel and tire assembly (or wheel), measure the radial runout.
- Note the variance (runout) from 0 on the dial of the gauge.
- If the runout reading of a wheel and tire assembly is greater than 1.14 mm (0.045 in), locate and temporarily mark the high spot and runout reading on the sidewall of the tire and carry out the Match Mounting procedure to optimize the wheel and tire assembly.
- If the runout reading of a wheel and tire assembly is 1.14 mm (0.045 in) or less, permanently mark the high spot and the runout reading on the inward sidewall of the tire for reference during future wheel and tire service. Balance the assembly and install the wheel and tire on the vehicle using the Wheel-to-Hub Optimization procedure.