PAGID RACING BRAKE PADS U1295 BMW E36 M3, E46 330i, E34 M5, E36 Z3 & Z4 FRONT

RaceBrakes NZSKU: U1295 RS14

Price:
Sale price$501.40

Description

PAGID RACING BRAKE PAD SHAPE: U1295

These pads will fit the following vehicles.

  • BMW 120d & 130i [E81 & E87]
  • BMW 330i [E46]
  • BMW M3 [E36] 3.0 & 3.2
  • BMW M3 [E46] & M3 CSL
  • BMW M5 [E34]
  • BMW Z3 M Coupe [E36]
  • BMW Z3 M Roadster 3.2i
  • BMW Z4 M Coupe

These pads are also available in the following compounds.

RS14

RS 14 features good all-round characteristics for many applications. It is a low metallic resin bonded material containing steel and aramid fibers.

RS42

RS 42 is a low metallic resin bonded material containing steel and aramid fibers. The characteristics make this material appropriate for small formula cars.

RS44

RS 44 works for formula cars all the way up to lighter passenger cars. It is a low metallic resin bonded material containing steel and aramid fibers. The smooth progression of friction from cold to hot makes this material easy to work with.

RSL1 & RSL1E

RSL 1E and RSL 1 are low metallic resin bonded materials containing steel and aramid fibers with very high heat resistance. They maintain a constant friction level over a wide range of temperatures. Their reduced wear rate and disc friendliness make these materials appropriate for endurance races. RSL 1E is further improved in terms of pad life and modulation as well as friction stability at high temperatures and pad life. As a benefit, RSL 1E provides the lowest pad wear rate in the PAGID Racing portfolio for highly thermally loaded applications.

RSL29

RSL 29 features very good modulation and release characteristics. It is a low metallic resin bonded material containing steel and aramid fibers. The friction level of the material maintains constant at a low-medium level. Another advantage is the easy bedding in behavior

RST3

RST 3 is a medium-high friction metal-ceramic compound containing steel fibers and is therefore the perfect complement of the RST product family. It captivates by its low heat conductivity

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