Project-Mu NS street pads are developed specifically for street use. Guaranteed to outperform OEM pads, NS pads are reliable in any weather or road conditions. NS street pads give outstanding initial stopping power that is of prime importance on the street. Made in out motorsport facility from Asbestos-free brake compounds, NS street pads have very minimal dust and wear properties.
Temperature Range: 0 – 400°C
Friction Coefficient: 0.37 – 0.42
Specifically for the drifter. Designed exclusively for rear brake use, D1 Spec brakes are ideal for drifting manoeuvres. With very high initial frictions, this rear brake pad is designed to help reduce the effort required to lock the rear wheels. Very popular in the international drift scene, this pad will offer you a performance advantage for minimal cost. Designed exclusively for rear brake use.
Application: Subaru Rear
Compound: D1 Spec
Temperature Range: 0 – 380ºC
Friction Coefficient: 0.50 – 0.55
Project-Mu HC+ (Hyper Carbon +) is mainly used in street, track and rally conditions. HC+ is more aggressive than NS but has excellent fade resistance and superior braking control. Capable of operating at temperatures up to 800ºC, this pad will handle most serious applications. HC+ pads are the preferred option in high performance vehicles.
Temperature Range: 0 – 800°C
Friction Coefficient: 0.38 – 0.62
HC-EP (HC800) is a premium performance street and rally brake pad. It has more bit than NS and has excellent fade resistance. Capable of operating at temperatures up to 800ºC, this pad will handle almost all serious braking conditions. HC-EP is a genuine ‘cross over’ pad that is suitable for both road and track days. HC-EP is extremely capable in competition environments, so use this pad if you are involved in a serious track day, rally and hill climb. Along with temperature capabilities, HC-EP are renowned as a ‘drivers pad’ with unmatched driver feel and control. The HC-EP pads provide linear control commensurate with foot pressure on the brake pedal and maintain steadfast stability in all areas.
Temperature Range: 0 – 800°C
Friction Coefficient: 0.43 – 0.58
Project-Mu NS-EP street pads are developed specifically for street use. Guaranteed to outperform OEM pads, NS-EP pads are a reliable and simple way to upgrade your braking performance for minimal cost. NS-EP pads offer a well balanced improvement over the performance of genuine brake pads. NS-EP street pads give outstanding initial stopping power that is of prime importance on the street. Made from Asbestos-free brake compounds, NS-EP street pads have excellent low dust and squeal properties.
Compound: NS-EP (NS400)
Temperature Range: 0 – 400ºC
Friction Coefficient: 0.35 – 0.40
RC-09 Club Racer is the Project-Mu brake pad of choice for Club Motorsport. Be it for time attack, club sprints, tarmac or gravel rally, this is the brake pad that offers the very best in performance, feel and release, while remaining a budget option. This pad punches above its weight and will push aside many other ‘competition’ pads in performance and durability. RC-09 Club Racer is based on the DNA of Project-Mu’s ultra-successful H16-03 Motorsport pad which is one of the world’s best race pads. The RC-09 is renowned for its initial bite and equality in pedal modulation while being rotor friendly.
Temperature Range: 100 – 800°C
Friction Coefficient: 0.42 – 0.55
Vehicle Brake Pad Applications Brand:Select BrandAlfa RomeoAston MartinAudiBMWCitroenFerrarriFIATFordHoldenHondaLamborghiniLanciaLexusMaseratiMazdaMercedes BenzMiniMitsubishiNissanPeugeotPorscheRenaultRoverSAABSkodaSubaruSuzukiToyotaVolkswagonVolvo Model: Select Model147156159AlfettaBerlinaBreraGiuliettaGTMitoSpiderSelect ModelV8 VantageDB5DB6DBSDB7DB8DB9VanquishSelect ModelA1A3A4A5A6A7A8S3S5R8TTTTSSelect Model1 Series1 Series F203 Series5 Series6 Series7 SeriesE87E88E90X1Z1Z3Z4Z8Select ModelC5DS3Select Model348360456512550575F355SpiderTetarossaSelect Model500Grand PuntoCoupe TurboCinquecentoSelect ModelCapriCortinaEscortFairlaneFalconFiestaFocusTerritorySelect ModelCommodoreMallooMonaroSelect … Continue Reading Landing