EBC Yellowstuff Brake Pads for Chrysler 300C, Dodge Challenger, Charger and Lancia Thema 3.0 MultiJet, 3.6 and 5.7 from 2011 (front axle)
Yellowstuff is the 3rd category of EBC sports brake pads.
This brake pad compound is based on aramid fibres.
The enormous working range (up to 900°C) enables use in road traffic as well as on the race track.
Even for very heavy vehicles or vehicles that are driven with additional load (e.g. trailers), this surface offers the ideal conditions due to its properties.
Even when the brake is cold, this brake pad offers excellent deceleration values.
With increasing temperature, the "bite" of this sports brake pad nevertheless becomes significantly more aggressive, resulting in even better deceleration values.
Due to the "soft" pad compound, Yellowstuff sports brake pads can be run in quickly and are extremely gentle on brake discs.
Despite a long service life, this sports brake pad causes a high level of brake dust, however, as with all EBC brake pads, no aggressive brake dust is produced.
Like all EBC automotive brake pads, all EBC Yellowstuff sports brake pads feature a single-brake coating, broken edges, a heat groove and a powder coating.
OE number (for comparison purposes only): 5142559AA, 5142559AB, 68147681AA, 68147681AB
Approval: REG90
Installation location: Front axle
Fits:
Chrysler | 300C | 3.0 CRD, 3.6, 5.7 | from 2011 with 345 mm brake discs |
Dodge | Challenger | 3.6, 5.7 | from 2011 with 345 mm brake discs |
Dodge | Charger | 3.6, 5.7 | from 2011 with 345 mm brake discs |
Lancia | Topic | 3.0 MultiJet, 3.6 | from 2011 with 345 mm brake discs |
Delivery includes:
- 1 set EBC Yellowstuff brake pads (DP42139R) for front axle
Note:
Before ordering, please check whether 345 mm or 320 mm brake rotors are fitted to the front of your vehicle.
You can compare the size of the front and rear brake rotors for orientation.
The rear brake rotors always have a diameter of 320 mm.
M. Gutmann -
Everything fitted, parts were suitable and were delivered quickly
Verified purchase. More information