Pagid 2405 Brake Pad
Pagid 2405 Brake Pad
Pagid 2405 Brake Pad
Pagid 2405 Brake Pad
Pagid 2405 Brake Pad

Pagid 2405 Brake Pad

SKU: Pagid 2405 Brake Pad

Regular price
$413.67
Sale price
$413.67
Unit price
per 

Pagid


Pagid front/rear brake pad; RS 05 compound; 18.5mm; fits several Porsche models from '99-'08

Pagid Brake Pad Set, Porsche 996, 997, 986 Boxster S, 987 Boxster, Cayman various, 987 Cayman various Front. 121mm D61 RS14 Compound; I

Pagid Brake Pad Set, Porsche 996, 997, 986 Boxster S, 987 Boxster, Cayman various, 987 Cayman various Front. 121mm D61 RSC1 Compound; I

Pagid Brake Pad Set, Porsche 996, 997, 986 Boxster S, 987 Boxster, Cayman various, 987 Cayman various Front. 121mm D61 RSC3 Compound; SO

Pagid Brake Pad Set, Porsche 996, 997, 986 Boxster S, 987 Boxster, Cayman various, 987 Cayman various Front. 121mm D61 RSL1 Compound; I

Pagid Brake Pad Set, Porsche 996, 997, 986 Boxster S, 987 Boxster, Cayman various, 987 Cayman various Front. 121mm D61 RST3 Compound; I

Pagid
2405 Brake Pad
Manufacturer: Pagid


Vehicles

Make Model Build (Year) Front Rear
Porsche 996 3.4 C & 3.6 97 - 05 X
Porsche 996 3.4 C Cup 99 - 01 X
Porsche 996 3.4 C Cup 97 - 98 X
Porsche 996 3.6 C 4S 03 - 05 X
Porsche 996 GT2 02 - 05 X
Porsche 996 GT3 02 - 05 X
Porsche 996 GT3 99 - 01 X
Porsche 996 GT3 Cup 02 - 05 X
Porsche 996 GT3 RS [street car] 03 - 05 X
Porsche 996 Turbo 99 - 05 X
Porsche 997 3.6 C & 3.6 C4 05 - 09 X
Porsche 997 3.8 C S & 3.8 C 4S 05 - 12 X
Porsche 997 3.8 Carrera GTS 09 - 11 X
Porsche Boxster [987] [ceramic brakes] 05 - 12 X
Porsche Boxster S [986] 99 - 05 X
Porsche Boxster S [987] 05 - 12 X
Porsche Cayman [987] 09 - 12 X
Porsche Cayman [987] [ceramic brakes] 06 - 12 X
Porsche Cayman R [987] (none ceramic) 10 - 12 X
Porsche Cayman S [981] [ceramic brakes] 13 - X
Porsche Cayman S [987] 06 - 12 X

Calipers

For this Shape No. no matches


Related Shape No.

For this Shape No. no matches


Pagid RSL Compound

RSL 1

Pagid RSL 1 Best Practice::
RSL1 is best used as a front brake pad in GT cars, Touring cars and on Prototypes in endurance racing. Due to the high friction and good modulation, often used in sprint races as well. RSL 1 has an impressive tally of victories in the toughest Endurance races, including Le Mans, Daytona, Nürburgring, Sebring, Spa and others.

Pagid RSL 1 Compound Description::
RSL 1 is a low metallic resin bonded material containing steel and aramid fibers with high heat resistance. It maintains a constant friction level over a wide range of temperatures. Its low wear rate and disc friendliness make this material appropriate for endurance races.


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Pagid RST Compound

RST 3

Pagid RST 3 Best Practice::
Pagid RST3 is intended as a medium-high friction compound for use in Tarmac and Gravel Rally, GT, Touring, and Prototype circuit racing cars. It also excels on Formula cars and in club racing and a wide range of applications due to its combination of bite, friction and controllability. The release characteristic of RST 3 makes it ideal for use with ABS systems.

Pagid RST 3 Compound Description::
RST 3 is a 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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Pagid RS Compound

RS 14

Pagid RS 14 Best Practice::
RS 14, aka PAGID “Black”, is another of the cornerstone Pagid Racing pad compounds, and has seen years of success in GT cars, Touring cars for club racing and track days. Indeed, it remains a favorite in all of those venues to this day. RS 14 is an excellent all-around pad compound.

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


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Pagid RSC Compound

RSC 1

Pagid RSC 1 Best Practice::
Race and track day compound for all known types of ceramic brake discs.

Pagid RSC 1 Compound Description::
RSC 1 is a low metallic resin bonded material containing steel and aramid fibers. This material features good all-round characteristics and is suitable for all types of usage.


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Pagid RSC Compound

RSC 3

Pagid RSC 3 Best Practice::
Special race compound for ceramic discs with low content of fibers in the friction surface for sprint and endurance circuit racing.

Pagid RSC 3 Compound Description::
RSC 3 is a low metallic resin bonded material containing steel fibers. This material is specifically developed for above mentioned applications.

Vehicles

Make Model Build (Year) Front Rear
Mercedes AMG GTS (disc Ø 360 mm) Akebono caliper 15 - X
Mercedes C 63 AMG [W205] (disc Ø 360 mm) Akebono caliper 15 - X

Calipers

For this Shape No. no matches


Pagid RS Compound

RS 29

Pagid RS 29 Best Practice::
RS 29 is a legend in Endurance Racing, and has an unmatched history of success since its introduction as RS29. It remains very popular in club racing and track days. In addition, it is still found on GT, Touring cars, and Prototypes, and still enjoys a reputation as a great all-around friction material for endurance racing. Due to excellent modulation characteristics also often used in sprint races.

Pagid RS 29 Compound Description::
RS 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.

Pagid RS Compound

RS 19

Pagid RS 19 Best Practice::
Pagid RS 19 is one of the cornerstone friction compounds for Pagid Racing and has decades of victories in the worlds legendary Endurance event as Pagid RS19 or known as Pagid “Yellow”. It has found current favor as a rear axle usage compound in GT4, GT3 and GTE / GTLM, in combination with RSL 1 and RSL 2 on the front axle. It remains a favorite pad for front axle usage for lighter GT and Touring cars.

Pagid RS 19 Compound Description::
RS 19 is a low metallic resin bonded material containing steel and aramid fibers. It maintains a constant friction level across a broad range of temperatures. The material features very good modulation and release characteristic.


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