465102 Checking front PCCB brake discs (wear assessment)

WM 465102 Checking front PCCB brake discs (wear assessment)

Checking information on PCCB brake discs

Basic information

Checking involves the following:
1. Visual inspection for surface changes in the brake disc friction surfaces. Indication of wear: Connected surface fracture > 1 cm2 -arrow- , without adding up smaller fractures.





Connected surface fracture

2. Check surface roughness (Sr) of brake discs (max. 80 micrometer permitted) since this affects braking comfort (noises), braking behaviour/pedal pressure and brake-pad service life.





Surface roughness of PCCB brake disc

3. Check brake discs for minimum thickness -x-. The minimum brake disc thickness (e.g. Min. Th. 33.7 mm) is stamped on the brake-disc chamber.





Minimum thickness (x) of the PCCB brake disc

4. Check brake discs for edge damage -see figure- (damage due to improper use).





Edge damage on PCCB brake disc

General information on replacing worn PCCB brake discs

Three criteria governing the condition of the parts can make replacement necessary depending on the wear of PCCB brake discs:
1. Surface changes in the brake disc friction surfaces (material fatigue/wear) at an advanced stage (indication of wear: associated friction surface damage > 1 cm2).
2. Surface roughness of the brake disc friction surfaces too great (roughness depends on mileage and load).
3. Brake disc minimum thickness is not attained due to wear (material erosion due to friction).
- In practice, all three forms of brake disc erosion usually occur.
- Only in rare cases (in the case of long-term race driving brake loads/very high temperatures on the friction surfaces) does the surface change so quickly that a premature brake disc change has to be performed.
- Blue discs on the brake disc chamber and/or strongly coloured brake calipers indicate a long-term, sustained high load, on a racing circuit, for example.

Replacing brake discs (notes/decision-making aid)

When replacing brake discs as a result of wear (see wear assessment) both brake discs must be replaced on an axle!

Irrespective of wear, a brake disc change can be necessary on the brake disc friction surfaces due to edge damage! In such cases, only one brake disc may need to be replaced if the friction area surface of the other PCCB brake disc is still completely OK => Checking brake discs for edge damage.

Make sure not to confuse modern brake discs -B- (used on the Boxster S/Cayman S since start of production) and original brake discs -A- (911 Carrera 4S, 911 Turbo, 911 GT2, 911 GT3 - up to model year 2005). Distinguishing feature: Twice as many bars between the friction surfaces on modern brake discs -B- and different perforation bore pattern.





Original (A) and modern (B) brake discs

Modern discs -B- also have wear indicator plates in the friction surfaces (at three places, each offset by 120°) and the wear limit (minimum brake disc thickness) has been changed. The minimum brake disc thickness is stamped on the brake-disc chamber (e.g. Min. Th. 33.7 mm).

Only use modern brake discs -B- on the Boxster S/Cayman S (987).

The following general rule applies to PCCB brake discs: Different types cannot be used on the same axle -A and B-. Different types can be used on the front axle and rear axle -A and B-.

Cracks (stress-relief microstructure) in the brake disc friction surface

Cracks in the brake disc friction surfaces are viewed differently to cracks in cast iron brake discs. Cracks in PCCB brake discs do not constitute a wear criterion but exist already in new brake discs because of the way in which they are manufactured.





Stress-relief microstructure in PCCB brake disc friction surfaces

Information

- Due to the composition of different materials in the friction layer and support body, the friction surfaces (even when new) are coated with an uncritical crack pattern (stress-relief microstructure). Individual relaxation cracks sometimes run along the perforated bores.

- The stress-relief microstructure results from the way in which the brake disc surface is manufactured and does not pose a risk to safety. There is also no danger of the friction layers flaking off from the support body, since the friction layers are almost free of internal stresses as a result of the stress-relief microstructure.

- The stress-relief microstructure is sometimes clearly visible in new brake discs and the brake disc chamber side and the side that is opposite to the chamber can differ significantly from one another.

Note concerning bores (perforations) in the brake disc friction surface

Observe the following warning when cleaning or exposing the bores in the brake disc friction surface!





Bores (perforations) in brake disc friction surface

NOTICE

Work cannot be carried out on the bores in the brake disc friction surface

- Damage to brake discs

-> Clean the bores on PCCB brake discs with high-pressure cleaning equipment if necessary. Observe the relevant environmental and safety regulations.
-> Do not machine the bores. Drilling or counter-sinking is not permitted.

Coating on the PCCB brake discs (potential causes)

The coating on the PCCB brake discs arises as a result of a high load and high temperatures, for example on a racing circuit. Check the following in such cases:





Bores (perforations) in brake disc friction surface

- Ventilation (brake cooling): all components are present, secured correctly and undamaged.
- Brake pad quality: use the appropriate brake pads if the vehicle is being used on a racing circuit.
- Perforated bores -see illustration- in the brake discs must be free. Expose them if necessary => Notes on bores (perforations) in the brake disc friction surface.
- The brake discs can still be used even if there is a coating on them provided that they are OK with respect to all wear criteria => General information on replacing worn PCCB brake discs. The perforated bores -see illustration- must be free.

Note on bedding in the new brake pads

New brake pads require a slightly longer bedding-in period for PCCB brake discs than cast iron brake discs.

In general, the following applies: New brake pads must be broken in (bedding-in period), their optimum braking effect is therefore not reached until after a few hundred kilometres. The slightly reduced braking effect must be compensated for by increased pressure on the brake pedal. The same also applies after a brake disc change.

Checking PCCB brake discs (wear assessment)

Visual inspection of the surfaces of the brake disc friction surfaces (indication of wear)

Information

- The friction surface changes occur due to material fatigue as a result of extremely high thermal load. These disc temperatures, which occur above all in racing conditions, cause a progressive material fatigue.

- Effects on driving: The surface change worsens the smoothness of braking, decreases the disc strength and increases the brake pad wear and therefore makes a precautionary parts replacement necessary.

The following illustrations (PCCB brake disc wear appearance) are to be used for damage assessment.

PCCB brake disc wear appearance
1. Friction area surface after normal brake load in road use. No surface fractures.





PCCB brake discs without surface fractures

No replacement necessary!
2. Friction surfaces after a long journey and occasional higher load. Isolated cases of surface fractures less than 1 cm2 -arrow-.





PCCB surface fractures

No replacement necessary as the connected surface fractures are < 1 cm2!
3. End of service life of friction surface or after highest load on a racing circuit.





PCCB friction surface damage

Replace brake discs if the connected friction surface damage is > 1 cm 2 -arrow-. Read the instructions/tips for helping you decide whether to replace the brake discs.

Evaluating surface roughness (Sr) (max. 80 micrometre permitted)

Information

- An increase in surface roughness impairs smoothness of braking (rubbing, shaking in steering wheel, scraping noises) and increases brake pad wear.

- With a roughness (Sr) value of > 80 micrometer (> 80 micrometre), a precautionary parts replacement is required.

The assessment is carried out visually, based on the diagram. Two illustrations of the same peak-to valley surface roughness (views 1 and 2) help to make a better assessment.
1. Brake discs that are OK:
1.1. Surface roughness (Sr) = 6 micrometer -see figure- (view 1)





PCCB surface roughness (Sr) = 6 micrometres (view 1)

Surface roughness (Sr) = 6 micrometer -see figure- (view 2)





PCCB surface roughness (Sr) = 6 micrometres (view 2)

New brake disc. Illustration is used for better classification.
The early stages of roughness are indicated by burnt-out carbon fibres on the surface of an otherwise intact, semi-matt surface.
The surface feels smooth.
1.2. Surface roughness (Sr) = 56 micrometer -see figure- (view 1)





PCCB surface roughness (Sr) = 56 micrometres (view 1)

Surface roughness (Sr) = 56 micrometer -see figure- (view 2)





PCCB surface roughness (Sr) = 56 micrometres (view 2)

In the advanced stages of fibre burnout and the initial destruction of the Si and SiC 'matrix', the depressions have become more pronounced. Large sections of the surface are still intact, the depressions form an even, fine-grained pattern.
The surface still feels matt, however, and the roughness is not yet pronounced.
No replacement necessary!
1.3. Surface roughness (Sr) = 72 micrometer -see figure- (view 1)





PCCB surface roughness (Sr) = 72 micrometres (view 1)

Surface roughness (Sr) = 72 micrometer -see arrow- (view 2)





PCCB surface roughness (Sr) = 72 micrometres (view 2)

Borderline disc, which can still just be evaluated as OK. As a result of more advanced damage to the surface, the depressions are larger, and above all deeper, compared with the previous surface condition.
On the one hand, the more extensive roughness is noticeable (only when a comparison is made); on the other hand, however, like before, "only" depressions are observed.
Replacement not yet necessary!
2. Worn brake discs:
2.1. Surface roughness (Sr) = 108 micrometer -see figure- (view 1)





PCCB surface roughness (Sr) = 108 micrometres (view 1)

Surface roughness (Sr) = 108 micrometer -see figure- (view 2)





PCCB surface roughness (Sr) = 108 micrometres (view 2)

Worn surface. Advanced wear has led to a situation where only the remains of the original surface are left.
It is clear that the roughness is caused not only by depressions but also by bumps.
Replace brake discs! Read the instructions/tips for helping you decide whether to replace the brake discs.
In general, the following applies: Brake discs must be replaced if the surface roughness (Sr) is > 80 micrometer!
3. Worn brake discs (special cases):
3.1. Surface roughness (Sr) = 108 micrometer, as for previous disc, but with some of the original friction surface remaining -arrow-.





PCCB surface roughness (Sr) = 108 micrometres

Replace brake discs! Read the instructions/tips for helping you decide whether to replace the brake discs.
In general, the following applies: Brake discs must be replaced if the surface roughness (Sr) is > 80 micrometer!
3.2. Surface roughness (Sr) = 72 micrometer. Borderline brake disc detected based on roughness, as well as wear indication and connected surface fractures -arrows- , > 1 cm2.





PCCB brake disc

Replace brake discs! Read the instructions/tips for helping you decide whether to replace the brake discs.

Checking brake discs for minimum thickness

Information

- For perforated brake discs, the minimum thickness -X- must always be measured on the inner or outer friction surface track -arrows-.





Minimum thickness of PCCB brake disc

- Wear limit: The minimum brake disc thickness is stamped on the brake-disc chamber (e.g. Min. Th. 37.7 mm).

- Measure the brake thickness -x- with a suitable micrometre screw or a brake disc gauge around the inner or outer friction surface tracks -arrows-.

Checking brake discs for edge damage

Information

- Irrespective of wear, a brake disc change can be necessary on the brake disc friction surfaces due to edge damage.

- In such cases, only one brake disc may need to be replaced if the friction area surface of the other PCCB brake disc is still completely OK.

The following criteria apply to edge damage assessment:





Edge damage on PCCB brake disc

- Max. permissible width/depth = 2 mm
- Max. permissible length = 10mm
- Max. 3 damaged edge areas permissible