Racing Brake Pads

PFC 0636.XX.13.44 Rear Brake Pads Fits Mazda Miata (1994 - 2005), Front PFC 97 Compound: A favorite since its debut, Performance Friction 97 Compound Racing Braking Pads continue to impress, winning numerous races in CART, ALMS, Grand Am, ASA, and Club Races everywhere. The 97-Compound has less initial bite and torque then the 01, while offering great modulation, a very flat torque curve, and excellent release characteristics. A naturally low-wearing pad, the 97 compound is popular in the endurance circuits and amongst Club Racers and Track-Day enthusiasts. PFC 11 Compound: Based on the outgoing 01-compound, Performance Friction's 11-compound takes the same great high-bite and torque but with even better rotor and pad wear characteristics and improved bite, modulation, and release. Exhibiting a very high initial bite and torque, very little temperature induced torque rise follows. Less torque scatter exists for improved modulation with excellent release, helping to eliminate wheel lock at the end of a stop.

Pagid Racing Brake Pad Shape No. 3830 USA Fits the Following Vehicles: Make Model Build (Year) Front Rear Mazda MX-5 Miata ND 16 - X Pagid Racing Brake Pads are engineered for high-performance driving, delivering exceptional stopping power, durability, and control under the most demanding conditions. Trusted by professional racers and performance enthusiasts worldwide, these pads are crafted using advanced friction materials and cutting-edge technology to ensure consistent performance, low fade, and excellent modulation. Whether you're on the track or tackling aggressive street driving, Pagid Racing Brake Pads provide the reliability and confidence you need to push your vehicle to its limits. Pagid Racing Brake compounds are for steel (cast iron) rotors only unless otherwise noted. Pagid R 01 Compound The R01 features a specially formulated compound designed for the Mazda MX5 ND race car. The R 01 excels in both street and light racing applications. This unique blend ensures consistent performance, allowing for quick heat recovery and reliable stopping power, whether you're navigating city streets or tackling a race track.

Pagid Racing Brake Pad Shape No. 8129USA Fits the Following Vehicle: Make Model Build (Year) Front Rear Mazda Miata 1.8 NB (Spec Miata) 1994 - 2000      X Pagid Racing Brake Pads are engineered for high-performance driving, delivering exceptional stopping power, durability, and control under the most demanding conditions. Trusted by professional racers and performance enthusiasts worldwide, these pads are crafted using advanced friction materials and cutting-edge technology to ensure consistent performance, low fade, and excellent modulation. Whether you're on the track or tackling aggressive street driving, Pagid Racing Brake Pads provide the reliability and confidence you need to push your vehicle to its limits. Pagid Racing Brake compounds are for steel (cast iron) rotors only unless otherwise noted. RSL 29 Compound: The Pagid RSL 29 (Yellow) is the world-leading endurance brake pad used by most of the winning teams in motorsport. Although designed primarily for endurance racing, many competitors use this material successfully for sprint and short distance races also. RS29 has also found favor in the growing track day market due to the level of control, good cold performance, long life and low disc wear. Pagid RST 4 Compound: RST 4 is a semi-metallic resin bonded material containing steel fibers. This material has a medium friction level and high temperature resistance. Typically use is in formula cars and open wheel racing. It is also very popular as a rear-axle material for rally racing (tarmac and gravel) and for front engine cars. Also used in NASCAR on long ovals.

PFC 0279.XX.16.44 Brake Pads PFC 11 Compound: A new generation sprint and medium distance friction: the ultimate in control with superior disc conditioning. Developed from the PFC01 compound with improved bite, modulation, and release characteristics. It is ultra smooth and developed to reduce wheel locking at the end of braking while giving more cold and hot bite than the endurance oriented PFC08 compound. Brake with confidence; brake with ultimate control and modulation. PFC 08 Compound: One of PFC's most popular compounds which came to fame in Endurance Sportscar and GT racing due to its performance in applications where smooth initial bite is a must. PFC08 has a slight friction rise with temperature, excellent release and modulation characteristics. Despite its considerable performance, PFC08 has the lowest wear rate of all PFC compounds and can easily match the wear characteristics of the other competitors' materials but with much higher bite and consistent performance across a broad temperature range. Fits the Following Vehicles: Make Model Year Notes BMW 318i 1984 - 1992 Rear BMW 318is 1991 - 1992 Rear BMW 325 1986 - 1988 Rear BMW 325e 1984 - 1987 Rear BMW 325es 1986 - 1987 Rear BMW 325i 1987 - 1991 Rear BMW 325iS 1987 - 1991 Rear BMW 325iX 1988 - 1991 Rear BMW 524td 1985 - 1986 Rear BMW 528e 1982 - 1988 Rear BMW 533i 1983 - 1984 Rear BMW 535i 1985 - 1987 Rear BMW 635CSi 1985 - 1989 Rear BMW 735i 1985 - 1986 Rear BMW L6 1987 Rear BMW L7 1986 - 1987 Rear BMW M5 1988 - 1990 Rear BMW M6 1987 - 1988 Rear

PFC 0458.08.13.44 Rear Brake Pads Fits Mazda Miata (1990-93), Rear PFC 08 Compound One of PFC's most popular compounds which came to fame in Endurance Sportscar and GT racing due to its performance in applications where smooth initial bite is a must. PFC08 has a slight friction rise with temperature, excellent release and modulation characteristics. Despite its considerable performance, 08 has the lowest wear rate of all PFC compounds and can easily match the wear characteristics of the other competitors' materials but with much higher bite and consistent performance across a broad temperature range.

Pagid Racing Brake Pad Shape No. 8077 Fits the Following Vehicles: Make Model Build (Year) Front Rear Fiat Abarth 124 Spider 2016 - 20 X Fiat Abarth 124 Spider [Brembo brakes] 2016 - X Mazda MX-5 Miata NC 2006 - 15 X Mazda MX-5 Miata ND 2016 + X Mazda MX-5 Miata ND [Brembo brakes] 2016 + X Mazda MX-5 Miata Global Cup Car 2016 + X Pagid Racing Brake Pads are engineered for high-performance driving, delivering exceptional stopping power, durability, and control under the most demanding conditions. Trusted by professional racers and performance enthusiasts worldwide, these pads are crafted using advanced friction materials and cutting-edge technology to ensure consistent performance, low fade, and excellent modulation. Whether you're on the track or tackling aggressive street driving, Pagid Racing Brake Pads provide the reliability and confidence you need to push your vehicle to its limits. Pagid Racing Brake compounds are for steel (cast iron) rotors only unless otherwise noted. Pagid R01 Compound: A new Pagid compound, R01 is a flat medium-torque, high performance friction compound offering good modulation, control, and fade resistance. Suitable for medium temperature range applications such as high performance street driving, autocross, track days, Club Racing an Rally. Specifically designed for the Mazda MX-5 ND. Pagid RSL 29 Compound: The Pagid RSL 29 (Yellow) is the world-leading endurance brake pad used by most of the winning teams in motorsport. Although designed primarily for endurance racing, many competitors use this material successfully for sprint and short distance races also. RS29 has also found favor in the growing track day market due to the level of control, good cold performance, long life and low disc wear. Pagid RS 44 Compound: The Pagid RS 44 (Orange) is a carbon-based, highly controllable pad with a progressive friction curve. It has a medium initial bite and good low temperature response. A very versatile pad for use on both front and rear axles, or in conjunction with RS14 on the front axle in FWD cars. Particularly popular in Porsche club racing, fitted as OEM on the Porsche 993 RS and GT2.

PFC 7754.11.16.44 Brake Pads Fits the Following Calipers: Caliper Manufacturer: Caliper Model: AP Racing SC100 Mark Williams 81100 82100 Outlaw 2800 Bridge Wilwood Dynalite w/ Bridgebolt NDL w/ Bridgebolt One of PFC's newest offerings, Performance Friction 7754.11.16.44 racing brake pad set fits many popular AP Racing and Wilwood bridge-bolt calipers. Brake Pads Details: Manufacturer: Performance Friction Manufacturer part number: 7754.11.16.44 Compound: 11 Street or Race: Race Thickness of backing plate and pad material: 16mm Quantity in box: 4 pads PFC 11 Compound Details: 11 Compound is a new generation sprint and medium distance friction —the ultimate in control, with superior disc conditioning. 11 compounds were developed from the 01 compound with improved bite, modulation, and release characteristics. It is ultra smooth and developed to reduce wheel locking at the end of a stop. Brake with confidence—brake with ultimate control and modulation. For many applications, 11 will replace the venerable 01 compound. The PFC 11 compound’s wear is par with PFC’s legendary 01 compound. Virtually zero taper wear when raced in a properly designed race caliper.

Girodisc Titanium Brake Pad Shields Fitment: Porsche 991, 992, GT4 (Front) The problem of brake fluid boiling is caused by braking heat transferring from the rotors and pads directly into the fluid through the caliper pistons. When brake fluid boils, it releases air that is normally part of the molecular structure of the fluid. This air is compressible, of course, so brake pedal pressure compresses this air instead of pushing brake fluid and moving the caliper pistons. The brake pedal goes to the floor. Production street cars tend to suffer from this on track days because they don't have the extensive cooling ducts and exotic brake materials found on race cars. Race-only brake calipers generally come with titanium caliper pistons for one reason: titanium has very low thermal conductivity, which means it's bad at transferring heat. That's good if you're trying to keep your brake fluid from boiling. Here's a comparison of materials and their relative thermal conductivity ratings in Watts per meter-Kelvin (lower is better): Titanium 6AL-4V = 6.7 W/mK Steel = 52 W/mK Aluminum = 130 W/mK Most fixed calipers use aluminum pistons which are, unfortunately, excellent at transferring braking heat to your brake fluid. Our solution is to place Girodisc's thin titanium shims between each brake pad and the caliper pistons. This helps prevent braking heat from transferring into the pistons and, thus, into the fluid. For cars that are going to see hard driving or multiple track days, these shims are affordable protection against losing your brake pedal at the worst possible time, making your track day very expensive. Water-jet cut to exact size, so there's no cutting, grinding, or swearing involved. Price is per axle (four shims)

Girodisc Titanium Brake Pad Shields Fitment: Porsche 991, 992, GT4 Rear The problem of brake fluid boiling is due to heat transferring from the rotors and pads directly into the fluid through the caliper pistons. When brake fluid boils, it releases air that is normally part of the molecular structure of the fluid. This air is compressible, of course, and the brake pedal goes to the floor instead of moving the caliper pistons. Production cars tend to suffer from this on track days because they don't have the extensive cooling ducts and exotic brake materials found on race cars. Race-only brake calipers generally come with titanium caliper pistons for one reason: titanium has low thermal conductivity. This means it's very bad at transferring heat, which is good if you're trying to keep your brake fluid from boiling. Here's a comparison of materials and their relative thermal conductivity ratings (lower is better): Titanium 6AL-4V = 6.7 W/mk Steel = 52 W/mk Aluminum = 130 W/mk Most fixed calipers use aluminum pistons which are, unfortunately, excellent at transferring braking heat to your brake fluid. Our solution is to place Girodisc's thin titanium shims between the brake pad and the caliper pistons. This helps prevent braking heat from transferring into the pistons and, thus, into the fluid. For cars that are going to see hard or multiple track days, these shims are affordable protection from losing your brake pedal at the wrong time and making your track day very expensive. Water jet cut to exact size; no cutting, grinding, or swearing involved. Price is per axle (four shims)

The problem of brake fluid boiling is simply traced to heat transferring from the rotors and pads directly into the fluid through the caliper pistons.  When brake fluid boils, it releases air that is normally part of the molecular structure of the fluid.  This air is compressible, of course, and the brake pedal goes to the floor instead of moving the caliper pistons.  Production cars tend to suffer from this on track days because they don't have the extensive cooling ducts and exotic brake materials found on racing cars.   Race-only brake calipers generally come with titanium caliper pistons for one reason: titanium has low thermal conductivity. This means it's very bad at transferring heat, which is good if you're trying to keep your brake fluid from boiling.  Here's a comparison of materials and their relative thermal conductivity ratings (lower is better): Titanium 6AL-4V = 6.7 W/mk Steel = 52 W/mk Aluminum = 130 W/mk Most fixed calipers use aluminum pistons which are, unfortunately, excellent at transferring braking heat to your brake fluid. Our solution is to place Girodisc's thin titanium shims between the brake pad and the caliper pistons. This helps prevent braking heat from transferring into the pistons and, thus, into the fluid.  For cars that are going to see hard or multiple track days, these shims are affordable protection from losing your brake pedal at the wrong time and making your track day very expensive. Water jet cut to exact size; no cutting, grinding, or swearing involved. Price is per axle (four shims)