Porsche 718

Race Technologies Front Brake Pad 2403.17 Fits the Following Cars: Make Model Build (Year) Front Rear Porsche 991 3.4 Carrera [iron brakes] 12 - 16 X Porsche 991.2 3.0 Carrera [iron brakes] 17 - 19  X Porsche 992 3.0 Carrera [iron brakes] 20 - X Porsche 997 3.6 C & 3.6 C4 08 - 11 X Porsche 718 Boxster 2.0 [982] 16 - X Porsche 718 Boxster S 2.5 [982] 16 - X Porsche Boxster 2.7 [981] 12 - X Porsche Boxster GTS 3.4 [981] 14 - X Porsche Boxster S 3.4 [981] 12 - X Porsche 718 Cayman 2.0 [982] 16 - X Porsche 718 Cayman S 2.5 [982] 16 - X Porsche Cayman 2.7 [981] 13 - X Porsche Cayman GTS 3.4 [981] 14 - X Porsche Cayman S 3.4 [981] 13 - X RE10 Compound Race Technologies RE10 is the ultimate endurance race compound, offering a balance of excellent stopping power, low thermal conductivity, and extremely low pad and rotor wear. Utilizing the latest friction material technology, RE10 offers consistent performance under the most demanding of environments. Typical Applications: Professional Endurance Racing, Club Racing, and HPDE on high demand brake platforms. TS20 COMPOUND The Race Technologies TS20 is the ideal dual purpose compound for street and light track use. The TS20 combines an aggressive initial bite, good heat resistance all while keeping dust and noise to a minimum.  Note: RE10 is a "racing use only" pad. Running a "racing use only" pad on the street could produce excessive noise and dust. Disc wear could be accelerated if driven at cold temperatures or used in the incorrect temperature range. Racing pads are designed to work in specific temperature ranges, so it's important to choose the right compound for the environment the vehicle will be used in. Pad compounds are run on a brake dynamometer over multiple brake applications ("stops") to test the materials in a controlled environment and obtain accurate data. Wear rates and operating temperatures can be influenced by car set-up, grip levels, track layout, and other variables.

SilverRocket Dry Carbon Fiber Tailgate Support Reinforcement Applications: Porsche 718 (all models) Porsche 981 (all models) Eliminate Metal Dents With High-Downforce AOA Or Large Wings When we run our Porsche 718 GT4 RS with high downforce Angle-Of-Attack (AOA) settings on high-speed tracks, or when using high-downforce motorsport wings, the potential for metal dents in the sheet metal supporting the tailgate increases. For instance, the SilverRocket DRS-1 wing can generate over 550 lbs. of downforce at 200 mph. This substantial downforce is directed through the wing supports into the car's body at two points beneath the tailgate. There is a risk that high downforce could cause dents in the metal at these support points. SilverRocket Dry Carbon Fiber Wing Support Plates Highlights Benefit: Eliminates the risk of metal dents with high-downforce AOA settings and/or bigger rear wings Materials: Crafted from 100% aerospace-grade dry carbon fiber, twice the strength of steel Installation: Pre-fitted with 3M VHB tape for quick and easy installation in just 30 seconds

SilverRocket Customized Porsche Motorsport Strut Tower Plates Applications: Porsche 718 (all models) Porsche 981 (all models) The Porsche front strut mount is uniform across all 981 and 718 model variants as part of the aluminum body structure. For GT and RS sub-models, which are frequently used on track, the pressure on the strut mount is significantly higher than for street-only cars. As a result, catastrophic front strut tower failures are more common in GT/RS models compared to standard models. To address this issue in Porsche factory race cars, they are equipped with Porsche Motorsport strut tower reinforcement plates designed to prevent such failures. These reinforcement plates effectively increase the strength and durability of the front strut tower mounting points, greatly reducing the risk of failure. The performance results are impressive, with race cars rarely experiencing strut mount failures compared to street cars. To bring this level of durability to GT/RS street cars, Silver Rocket has customized these Porsche Motorsport race car strut tower reinforcement plates for a direct fit. Now your GT/RS street car can benefit from the same structural reinforcement as a factory race car, allowing you to enjoy track time with confidence and safety. SilverRocket Porsche Motorsport Strut Reinforcement Highlights Based on genuine Porsche Motorsports race car strut tower reinforcement plates Proven effective by thousands of Porsche 991 Cup and GT4 factory race cars over several years Custom-designed by SilverRocket for a direct fit on Porsche 718 GT4/GT4 RS and 981 GT4 street cars Includes all necessary installation hardware and a detailed installation manual

COBB Tuning Accessport V3 for Porsche 718 (All) The COBB Accessport V3 is the world's best-selling, most flexible ECU upgrade solution for the Porsche 718 Boxster and Cayman. Unlock power and torque masked by Porsche's conservative, one-size-fits-all factory ECU tuning by choosing and downloading COBB's more aggressive calibrations and mapping. Plus, easily upgrade forever as you add future modifications to your engine with COBB's off-the-shelf (OTS) calibrations professionally designed for most of the popular bolt-on Porsche modifications. It's truly the last engine management solution you'll ever need! Once you receive your Accessport, you just download the tuned map(s) of your choice from COBB's customer website, then upload them to your car's ECU via the OBD2 port. It's simple and easy, requiring only about 20 minutes! You can also save your original factory tune so you can change the ECU back to 100% stock anytime.  The Accessport V3 has a large, full color, higher resolution TFT screen that allows you to monitor up to six parameters in real time. Fully customizable look (multiple bezel colors and styles are available), layout (set up a race, street or dyno gauge cluster) and mounting options (choose from dozens of standard vehicle mounts). Of course, a full range of unparalleled COBB tuning is included, with enough space for 100 calibrations. This is your new Accessport, the last tuning device you'll ever need. Warning! Installation of the Accessport V3 over anything other than OEM or COBB software may result in ECU/TCU failure. Please contact us at (844) 438-7244 if you have any questions. CONFIRMED APPLICATIONS: Boxster 2017-2021 Porsche 718 Boxster MT, PDK 2017-2021 Porsche 718 Boxster S MT, PDK 2018-2019 Porsche 718 Boxster GTS MT, PDK Cayman 2017-2021 Porsche 718 Boxster MT, PDK 2017-2021 Porsche 718 Boxster S MT, PDK 2018-2019 Porsche 718 Boxster GTS MT, PDK FEATURES: Large, full color, higher resolution screen Customizable multi-gauge display In vehicle mount, with on/off switch User-customizable start-up screen Interchangeable faceplates COBB ACCESSPORT V3 DYNO GRAPHS:

SilverRocket Dry Carbon Fiber Clubsport Dive Plane & Lower Side Spoiler Pack Applications: Porsche 718 Cayman GT41 Porsche 718 Cayman GT4 RS Introducing the SilverRocket Lower Side Spoiler & Clubsport Dive Plane Pack for the Porsche 718 Cayman GT4 RS, the pinnacle of aerodynamic performance. Developed from SilverRocket's years of experience in working with renowned motorsport brands like KW and Manthey Racing, this pack embodies the culmination of our expertise in racing performance optimization. This first product in the SilverRocket 718 GT4 RS Performance Collection allows you to add or replace factory-installed lower side spoilers and dive planes to improve downforce and overall aerodynamic performance with upgraded materials and design. 1 Note: to fit the lower sider spoiler on the 718 GT4, the following parts from Porsche need to be installed: p/n 982807100A OK1 (Air Curtain Left, Black) p/n 982807544A OK1 (Air Curtain Right, Black) SilverRocket Clubsport Dive Plane & Side Spoiler Pack Highlights: Made from 100% dry carbon fiber: crafted from 100% dry carbon fiber, each aerodynamic part in this pack goes beyond OEM Porsche standards to deliver unrivaled quality and durability. Minimally invasive design: this dive plane and lower side spoiler pack can be installed with or without drilling holes in the painted bumper to fit each customer's needs. More stylish than the OEM parts:Made with the utmost care to the details, our pack offers a more sleek aesthetics than the OEM parts. Dive Plane & Lower Spoiler Function: SilverRocket Clubsport Dive Planes create additional vortexes to optimize airflow on both sides of the front wheels. At 124 mph (200 kph), the SilverRocket Clubsport Dive Planes and extended Lower Side Spoilers increase front axle downforce by 17%.

SilverRocket Dry Carbon Wind Buffeting Deflectors Applications: Porsche 718 GT4/GT4 RS/Clubsport Porsche 981 GT4/Clubsport Eliminate Wind Buffeting In High Style The SilverRocket Anti-Wind Buffeting Deflectors are aerodynamically optimized to eliminate wind vibration in your Porsche's cabin with open windows during high-speed driving. Made of racing-grade dry carbon fiber, they also provide a more track-like exterior aesthetic. Priced for a set of two (one left & one right)

SilverRocket Dry Carbon Fiber R-HR AeroDisc Application: Porsche 718 GT4 RS (OEM forged magnesium rims only) Unleash The Aero Potential Of Your GT4 RS Inspired by motorsport legends from Le Mans to F1, aerodynamic wheel covers have proven to be one of the most effective means of reducing drag and optimizing downforce. Modern street cars from the likes of Manthey Racing and AMG feature specially designed wheel covers for their top models. Now, SilverRocket brings this innovation to the Porsche 718 Cayman GT4 RS. Track-Tested & Proven Performance The SilverRocket AeroDisc has undergone over 20 hours of rigorous track testing with professional drivers. The AeroDisc effectively reduces drag while maintaining rear axle downforce, even with a lower rear wing angle-of-attack. During testing, SilverRocket recorded a 4.9 mph increase in top speed when the AeroDiscs were paired with the SilverRocket Clubsport rear wing. Race-ready Heat-Resistant (R-HR) Coating SilverRocket's on-track testing revealed that the rear brake area can exceed 500° F during racing or heavy track use, surpassing the ideal working temperature for carbon fiber. To ensure the longevity of the dry carbon fiber AeroDisc under these conditions, a proprietary Race-ready Heat-Resistant (R-HR) coating has been applied to the inner (wheel-facing) side of each AeroDisc. Crafted From Aerospace-Grade Dry Carbon Fiber The SilverRocket Dry Carbon Fiber R-HR AeroDisc is built for durability while remaining incredibly lightweight. It highlights the unique texture and beauty of genuine dry carbon fiber, enhancing the style of your GT4 RS. A blank canvas for your imagination, the AeroDisc's front surface blank, inviting you or your favorite race graphics designer to unleash your creativity on its design. Design Template can be downloaded here. OEM Porsche forged magnesium wheels not included.

SilverRocket Dry Carbon Fiber Clubsport Dive Planes Application: Porsche 718 GT4 & GT4 RS Porsche 981 GT4 & GT4 Clubsport Porsche 981/982 GT3 & GT3 RS Unleash The Aero Potential Of Your GT4 RS Unlock the true potential of your Porsche 718 GT4 RS. The SilverRocket Dry Carbon Fiber Clubsport Dive Planes offer up to a 17% increase in front axle downforce at 125 mph. Introducing the SilverRocket Clubsport Dive Plane Set for the Porsche 718, 981, 991, and 992 GT cars – the perfect aerodynamic part to increase front-axle downforce on-track. Their aggressive design compared to the original dive planes provides more downforce for racers on track to achieve better handling performance and front-rear downforce balance. The SilverRocket Clubsport Dive Planes allow you to add or replace factory-installed dive planes and front spoilers to further increase the downforce and overall performance with upgraded materials and design. SilverRocket Dry Carbon Fiber Clubsport Dive Plane Highlights Made From 100% Dry Carbon Fiber: crafted from 100% dry carbon fiber, this Dive Plane Kit goes well beyond OEM standards by delivering unrivaled durability and precision. Minimally Invasive Design: SilverRocket dive planes can be installed with or without drilling holes in the painted bumper to fit your specific needs. More Stylish: made with the extraordinary precision and attention to detail, the SilverRocket Clubsport Dive Plane kit offers a more sleek, professional aesthetic than the OEM Porsche parts. SilverRocket Clubsport Dive Planes create additional vortexes to optimize airflow around the front wheels and wheel wells. At 125 mph, the SilverRocket Clubsport Dive Planes can increase front axle downforce by as much as 17% when used in combination with the extended lower side spoiler, side aero cover kit, and side covers. This product is intended for race track use only.

Girodisc Porsche 981, 718 Rear Rings Refresh your Porsche’s braking performance with Girodisc D2-035 350mm rear replacement rings. These precision-machined, high-carbon cast iron rings bolt directly to your existing Girodisc aluminum hats using the included floating hardware kit. Replace only the wear surface to restore full braking performance while retaining your lightweight Girodisc two-piece system. Vehicle Fitment Compatible with:• Porsche 981 Cayman / Boxster (rear)• Porsche 718 Cayman / Boxster (rear)Note: For Girodisc 350mm two-piece rear rotor systems only. Designed to mate with original Girodisc aluminum hats — not compatible with factory two-piece rotor hats or PCCB systems. Features • Sold as a left/right pair with new floating hardware kit• CNC-machined from high-carbon cast iron for heat capacity and strength• Curved directional vanes maximize cooling and reduce fade• Bolt-on fitment to Girodisc aluminum hats — no modifications required• Balanced and heat-treated for consistent braking feel• Manufactured in Bellingham, WA, USA Specifications • Diameter: 350mm• Position: Rear• Material: High-carbon cast iron• Mount type: Floating two-piece system• Includes: Two rings and hardware kit• Sold/priced per pair• MSRP: $780.00 Girodisc D2-035 Porsche 981 / 718 Rear Replacement Ring FAQs Can these be installed with the OEM Porsche hats? No. These are designed exclusively for Girodisc aluminum hats and are not compatible with factory two-piece rotor assemblies. Will these fit PCCB or steel brake systems? Only the Girodisc steel two-piece rotor system — they are not designed for Porsche Ceramic Composite Brakes (PCCB). Are they suitable for track use? Yes. The high-carbon alloy and floating design resist cracking and warping under repeated high-temperature braking on track. How do I know when to replace the rings? Replace them when the rotor surface reaches minimum thickness or shows visible heat checking, per Girodisc wear specifications. Restore confidence in your Porsche 981 or 718 Cayman and Boxster with Girodisc D2-035 350mm rear replacement rings — the perfect blend of precision, performance, and cost-effective service life.

Girodisc Porsche 992 GT3, GT4 RS Rear Replacement Rings Keep your Porsche’s braking system performing at its best with Girodisc D2-272 rear replacement rings. Designed as direct replacements for Girodisc two-piece rotor assemblies, these high-performance 380mm rings restore cooling efficiency, reduce fade, and maintain optimal pedal feel lap after lap. Vehicle Fitment Compatible with:• 2022–2025 Porsche 911 GT3 (992)• 2023–2025 Porsche 718 Cayman GT4 RS• 2023–2025 Porsche 718 Spyder RSNote: These are friction rings only. They attach to existing Girodisc aluminum hats using the supplied floating hardware kit. Precision-Crafted for Track and Street Each Girodisc rotor ring is cast from a proprietary high-carbon iron alloy and machined in-house in the USA. The 72 curved directional vanes are designed to act as a centrifugal pump, pulling air through the disc to maximize cooling and stability under extreme heat. Whether you’re attacking corners on a race circuit or pushing hard on mountain roads, Girodisc rotors deliver consistent, confident braking. Features • Direct replacements for Girodisc 380mm rear rotors• Fits Porsche 992 GT3, GT4 RS, and Spyder RS models• Proprietary high-carbon iron construction for superior heat resistance• Curved directional vanes enhance airflow and cooling• Precision machined, balanced, and finished in the USA• Includes new floating hardware kit• Sold/priced per pair Specifications • Diameter: 380mm• Position: Rear• Material: High-carbon cast iron• Includes: Two rotor rings and full hardware kit• Made in the USA• Sold/priced per pair Girodisc D2-272 Replacement Ring FAQs Are these compatible with OEM Porsche rotors? No. These rings are designed for Girodisc two-piece systems and will not fit factory one-piece or PCCB rotors. Do the rings come with hardware? Yes. Each set includes a full floating hardware kit with pins, bolts, and washers for an easy installation. Can these be used for track driving? Absolutely. Girodisc rotors are race-proven and built to handle sustained high temperatures without warping or fade. How often should replacement rings be changed? Replace them when the rotor reaches its minimum thickness or shows cracking that extends to the edge of the disc. Renew your Porsche’s braking confidence with Girodisc D2-272 rear replacement rings — precision-built for the 992 GT3 and GT4 RS, combining world-class craftsmanship with proven track performance.

Carbotech CT1389 Performance & Racing Front Brake Pads Cobalt CT1389 Fits The Following Vehicles: Make Model Build (Year) Front Rear Porsche 991 3.4 Carrera [iron brakes] 12 - 19 X Porsche 991.2 3.0 Carrera [iron brakes] 15 - 19 X Porsche 992 3.0 Carrera [iron brakes] 20 - X Porsche 997 3.6 C & 3.6 C4 08 - 11 X Porsche 718 Boxster 2.0 [982] 16 - X Porsche 718 Boxster S 2.5 [982] 16 - X Porsche Boxster 2.7 [981] 12 - X Porsche Boxster GTS 3.4 [981] 14 - X Porsche Boxster S 3.4 [981] 12 - X Porsche 718 Cayman 2.0 [982] 16 - X Porsche 718 Cayman S 2.5 [982] 16 - X Porsche Cayman 2.7 [981] 13 - X Porsche Cayman GTS 3.4 [981] 14 - X Porsche Cayman S 3.4 [981] 13 - X   Precision braking starts here. The Carbotech CT1389 brake pads offer world-class stopping power across a range of compounds engineered for HPDE, club racing, time trials, and daily driving. Whether you're shaving tenths at a national event or building consistency during weekend track days, there's a Carbotech compound tailored to your performance goals. Manufactured in the USA using Carbotech’s proprietary ceramic and metallic formulations, these pads deliver unmatched modulation, rotor friendliness, and fade resistance. Friction materials have evolved significantly over the years. Brake pads were originally made with organic ingredients such as asbestos and carbon, held together by a strong resin. Most brake pads sold today are considered semi-metallic, semi-metallic brake pads use brass, copper, and steel wool shavings held together by a resin. Unfortunately, the main drawback about the use of steel strands, iron, graphite, and small amounts of filer and friction modifiers (used to provide strength and conduct heat away from the rotors) is that the metal shavings and iron must rub against steel rotors every time the brakes are applied. This generates more noise and is a lot more abrasive on the rotors. It also creates corrosive dust that can damage your braking system as well as the paint on your wheels and car. Friction materials that contain Ceramic Kevlar formulations have become recognized for their desirable blend of traits. This allows the Ceramic Kevlar pads to handle higher brake temperatures with less heat fade, and provide faster recovery after heavy braking. It also reduces brake dust and makes wheel maintenance easier! Ceramic Kevlar compounds extend brake life compared to most other semi-metallic and organic materials, and at the same time they outlast other premium pad materials by a significant margin, without compromising in noise control, pad life, and all around braking performance. The CT1389 shape fits a variety of high-performance applications, making it a go-to solution for drivers looking for track day brake pads that match their skill level and intensity. Carbotech CT1389 Brake Pad Highlights Multiple compounds available to match driving style and track conditions Fade-resistant ceramic-metallic formulations designed for extreme temperature stability Rotor-friendly design ensures longer disc life and reduced operating costs Made in the USA with race-proven quality and compound development Perfect for HPDE, time trials, autocross, club racing, and pro-level motorsports Available Compounds for the Carbotech CT1389 Brake pad 1521: street compound designed for spirited street driving. Low dust and quiet operation with high initial bite.  1521 friction coefficient rated at 0.47. AX6: Autocross-focused compound offering more initial bite than 1521. Great for Solo and light-duty track use where cold bite matters. AX6 friction coefficient rated at 0.50. RP2: Ideal for racers seeking durability and rotor life in endurance club racing. Very low wear rates and excellent release characteristics. RP2 friction coefficient rated at 0.50. XP8: Entry-level race compound perfect for advanced HPDE and club racing. Consistent torque and excellent modulation under high heat. XP8 friction coefficient is rated at 0.56. XP10: Mid-tier race pad with higher bite and fade resistance than XP8. Excellent for time trials, wheel-to-wheel racing, and aggressive HPDE. XP10 friction coefficient is rated at 0.60. XP12: Designed for heavier cars or high-speed tracks. High torque levels and consistent performance across wide temperature ranges. XP12 friction coefficient is rated at 0.65. XP20: Ultra-high torque and friction. For drivers who demand maximum stopping power in pro-level racing environments.  XP20 friction coefficient rated at 0.68. XP24: Highest friction compound in the Carbotech lineup. Built for pro racing applications requiring peak performance and extreme heat tolerance. XP24 friction coefficient rated at 0.70. Carbotech 1521 The Carbotech™ 1521™ is a high-performance street compound. The 1521™ compound is known for its release and modulation, along with unmatched rotor friendliness. 1521™ is also a low dust and low noise compound with an excellent initial bite. This compound's excellent linear torque production provides incredible braking force without ABS intervention. Carbotech™ 1521™ operating range starts out at ambient and goes up to 800°F (426°C+). 1521™ is suitable for ALL street cars, perfect for your tow vehicle or fleet vehicle. Carbotech™ 1521™ is NOT recommended for track use. Carbotech AX6 The AX6™ is specifically engineered for Autocross applications. A high-torque brake compound delivering reliable and consistent performance over a wide operating temperature range of 50°F to 1000°F + (10°C to 537°C+). The advanced compound matrix provides an excellent initial bite, high coefficient of friction at lower temperatures along with very progressive brake modulation and release characteristics. NOT FOR STREET USE! Carbotech RP2 The RP2™ compound was engineered for endurance racing based on our highly successful XP™ Series formulations. RP2™ has a strong initial bite, a little less modulation than our XP12™, but still maintains the rotor friendliness of our XP™ series compounds. RP2™ has great fade resistance with a temperature range of 250°F to 1450°F+ (121°C to 787°C). RP2™ is as rotor friendly as our XP™ series compounds. NOT FOR STREET USE! Carbotech XP8 A high torque brake compound with a wide operating temperature range of 200°F-1250°F+ (93°C to 676°C+). Carbotech™ XP8™ is their first racing compound. It provides good initial bite at race temperatures, high coefficient of friction, excellent modulation, and release characteristics. XP8™ offers extremely high fade resistance and is very rotor friendly. It's perfect for track day use with any tire.  NOT FOR STREET USE! Carbotech XP10 When Carbotech™ unleashed the XP10™ it immediately gathered multiple regional, divisional, and national championships. The XP10™ has a strong initial bite with a coefficient of friction and rotor friendliness unmatched in the industry. Fade resistance is in excess of 1475°F (801°C). XP10™ still maintains the highly-praised release, excellent modulation and rotor friendliness that have made all Carbotech™ compounds so successful. NOT FOR STREET USE! Carbotech XP12 Another highly successful XP™ series compound with an excellent initial bite, torque and fade resistance over and above the XP10™ compound. XP12™ has a temperature range of 250°F to 1850°F+ (121°C to 1010°C+). The XP12™ has that excellent Carbotech™ release and modulation that has made all other Carbotech™ compounds so successful. The XP12™ is more rotor aggressive than XP10™ but compared to the competition the XP12™ is still very rotor friendly. NOT FOR STREET USE! Carbotech XP20 XP20™ is the latest iteration of the highly successful XP™ series of compounds.  With an extremely aggressive initial bite, linear torque curve and excellent fade resistance the XP20™ is a major step in a progression of the XP™ series of compounds from Carbotech™. XP20™ has a temperature range of 275°F to 2000°F+ (135°C to 1093°C+). Carbotech™ XP20™ maintains our tradition of having the outstanding release and modulation that has made all other Carbotech™ compounds so successful.  NOT FOR STREET USE! Carbotech XP24 XP24™ is the pinnacle compound of the extremely successful XP™ Series of compounds engineered by Carbotech™. This compound is based on the same fundamentals that exist in all other Carbotech™ formulations. XP24™ has even more initial bite, more overall bite, and more torque along with the most linear torque curve we have ever offered. The thermal characteristics are of the highest Carbotech™ offers along with one of the highest coefficient of friction ratings offered by anyone in the braking industry. This compound is the longest wearing compound Carbotech™ offers as it was originally engineered for endurance applications at the highest pro racing levels. This revolutionary new compound has been extremely successful with an open wheel, closed wheel, sprint, and endurance applications. XP24™ has a temperature range of 400°F to 2000°F+ (204°C to 1093°C+). NOT FOR STREET USE! Carbotech CT1471 Frequently Asked Questions (FAQ) 1. Which Carbotech compound is best for daily driving? 1521 is ideal for spirited street use with minimal dust and noise.. 2. What’s the best compound for beginner HPDE drivers? XP8 is a great starting point for advanced HPDE, offering strong bite and fade resistance without being overly aggressive. 3. Can I mix Carbotech compounds front and rear? Yes, many drivers use a more aggressive compound in the front (e.g., XP12) and a slightly less aggressive one in the rear (e.g., XP10) to fine-tune balance. 4. Are Carbotech pads hard on rotors? No. All Carbotech compounds are known for being rotor-friendly, helping reduce rotor wear and operating costs. 5. Which compound is best for endurance racing? RP2 is engineered specifically for long-distance events where pad and rotor life are just as important as torque output. 6. Do Carbotech pads require special bedding procedures? Yes. A proper bedding-in process is critical for optimal performance. Carbotech provides detailed bedding instructions with every set of pads. Carbotech Brake Pad Bedding Procedures The bedding process transfers friction material from the pads into the pores of the brake rotor. It also matches the microscopic contours of the pads and rotors to increase surface contact. Proper bedding of pads & rotors will result in greater performance, longer pad life & less rotor wear. Failure to properly bed in your pads could lead to friction materials chunking and breaking up. This could also lead to overheating your pads and causing them to glaze over resulting in the car not being able to stop or slow fast enough. All new brake pads require a bedding process. The proper way to bed your brake pads and brake discs (rotors) is to bed them on the racetrack, NOT on the street. Start this process by pumping your brakes a few times to assure proper installation. Once on track perform several moderate (medium) near stops (to a very slow rolling speed) to thoroughly warm up the pads and rotors. This should take 1-2 laps. This allows a thin layer of the pad material to be transferred into the micro-grooves of the rotor. After the pads/rotors are warm, perform a series of hard near stops (to a slow rolling speed) until some brake fade is felt. This process should take about 2-4 laps (depending on the track). Once this occurs, then stay off the brakes (as much as possible) and bring your car into the pits/paddock to completely cool. Do not lock the tires during this operation. Allow brake pads and/or rotors cool down to ambient temperatures; no less than 30 minutes. The total bedding procedure should not take more than 5-6 laps or about 10-15 minutes. Failure to properly bed in your pads could cause friction material to chunk and break up resulting in poor pad performance and pad life. Improper bedding can also lead to overheating your pads and causing them to glaze over, resulting in the car not being able to stop or slow properly.

Carbotech CT1417 Performance & Racing Rear Brake Pads Cobalt CT1417 Fits The Following Vehicles: Make Model Build (Year) Front Rear Porsche 991 3.4 Carrera [ceramic brake caliper with RBD cast iron disc ] 11 -19 X Porsche 991 3.4 Carrera [ceramic brakes] 11 - 15 X Porsche 991 3.8 Carrera S [ceramic brake caliper with RBD cast iron disc] 11 -19 X Porsche 991 3.8 Carrera S [ceramic brakes] 11 - 15 X Porsche 991 3.8 Carrera S / GTS [iron brakes] 11 - 15 X Porsche 991.2 3.0 Carrera [ceramic brakes] 15 - 19 X Porsche 991.2 3.0 Carrera S [ceramic brakes] 15 - 19 X Porsche 991.2 3.0 Carrera S [iron brakes] 15 - 19 X Porsche 991.2 3.0 Carrera GTS [iron brakes] 17 - 19 X Porsche 992 3.0 Carrera [iron brakes] 20 -  X Porsche 992 3.0 Carrera S [iron brakes] 20 -  X Porsche 992 3.0 Carrera 4S [iron brakes] 20 -  X Precision braking starts here. The Carbotech CT1417 brake pads offer world-class stopping power across a range of compounds engineered for HPDE, club racing, time trials, and daily driving. Whether you're shaving tenths at a national event or building consistency during weekend track days, there's a Carbotech compound tailored to your performance goals. Manufactured in the USA using Carbotech’s proprietary ceramic and metallic formulations, these pads deliver unmatched modulation, rotor friendliness, and fade resistance. Friction materials have evolved significantly over the years. Brake pads were originally made with organic ingredients such as asbestos and carbon, held together by a strong resin. Most brake pads sold today are considered semi-metallic, semi-metallic brake pads use brass, copper, and steel wool shavings held together by a resin. Unfortunately, the main drawback about the use of steel strands, iron, graphite, and small amounts of filer and friction modifiers (used to provide strength and conduct heat away from the rotors) is that the metal shavings and iron must rub against steel rotors every time the brakes are applied. This generates more noise and is a lot more abrasive on the rotors. It also creates corrosive dust that can damage your braking system as well as the paint on your wheels and car. Friction materials that contain Ceramic Kevlar formulations have become recognized for their desirable blend of traits. This allows the Ceramic Kevlar pads to handle higher brake temperatures with less heat fade, and provide faster recovery after heavy braking. It also reduces brake dust and makes wheel maintenance easier! Ceramic Kevlar compounds extend brake life compared to most other semi-metallic and organic materials, and at the same time they outlast other premium pad materials by a significant margin, without compromising in noise control, pad life, and all around braking performance. The CT1417 shape fits a variety of high-performance applications, making it a go-to solution for drivers looking for track day brake pads that match their skill level and intensity. Carbotech CT1417 Brake Pad Highlights Multiple compounds available to match driving style and track conditions Fade-resistant ceramic-metallic formulations designed for extreme temperature stability Rotor-friendly design ensures longer disc life and reduced operating costs Made in the USA with race-proven quality and compound development Perfect for HPDE, time trials, autocross, club racing, and pro-level motorsports Available Compounds for the Carbotech CT1417 Brake pad 1521: street compound designed for spirited street driving. Low dust and quiet operation with high initial bite.  1521 friction coefficient rated at 0.47. AX6: Autocross-focused compound offering more initial bite than 1521. Great for Solo and light-duty track use where cold bite matters. AX6 friction coefficient rated at 0.50. RP2: Ideal for racers seeking durability and rotor life in endurance club racing. Very low wear rates and excellent release characteristics. RP2 friction coefficient rated at 0.50. XP8: Entry-level race compound perfect for advanced HPDE and club racing. Consistent torque and excellent modulation under high heat. XP8 friction coefficient is rated at 0.56. XP10: Mid-tier race pad with higher bite and fade resistance than XP8. Excellent for time trials, wheel-to-wheel racing, and aggressive HPDE. XP10 friction coefficient is rated at 0.60. XP12: Designed for heavier cars or high-speed tracks. High torque levels and consistent performance across wide temperature ranges. XP12 friction coefficient is rated at 0.65. XP20: Ultra-high torque and friction. For drivers who demand maximum stopping power in pro-level racing environments.  XP20 friction coefficient rated at 0.68. XP24: Highest friction compound in the Carbotech lineup. Built for pro racing applications requiring peak performance and extreme heat tolerance. XP24 friction coefficient rated at 0.70. Carbotech 1521 The Carbotech™ 1521™ is a high-performance street compound. The 1521™ compound is known for its release and modulation, along with unmatched rotor friendliness. 1521™ is also a low dust and low noise compound with an excellent initial bite. This compound's excellent linear torque production provides incredible braking force without ABS intervention. Carbotech™ 1521™ operating range starts out at ambient and goes up to 800°F (426°C+). 1521™ is suitable for ALL street cars, perfect for your tow vehicle or fleet vehicle. Carbotech™ 1521™ is NOT recommended for track use. Carbotech AX6 The AX6™ is specifically engineered for Autocross applications. A high-torque brake compound delivering reliable and consistent performance over a wide operating temperature range of 50°F to 1000°F + (10°C to 537°C+). The advanced compound matrix provides an excellent initial bite, high coefficient of friction at lower temperatures along with very progressive brake modulation and release characteristics. NOT FOR STREET USE! Carbotech RP2 The RP2™ compound was engineered for endurance racing based on our highly successful XP™ Series formulations. RP2™ has a strong initial bite, a little less modulation than our XP12™, but still maintains the rotor friendliness of our XP™ series compounds. RP2™ has great fade resistance with a temperature range of 250°F to 1450°F+ (121°C to 787°C). RP2™ is as rotor friendly as our XP™ series compounds. NOT FOR STREET USE! Carbotech XP8 A high torque brake compound with a wide operating temperature range of 200°F-1250°F+ (93°C to 676°C+). Carbotech™ XP8™ is their first racing compound. It provides good initial bite at race temperatures, high coefficient of friction, excellent modulation, and release characteristics. XP8™ offers extremely high fade resistance and is very rotor friendly. It's perfect for track day use with any tire.  NOT FOR STREET USE! Carbotech XP10 When Carbotech™ unleashed the XP10™ it immediately gathered multiple regional, divisional, and national championships. The XP10™ has a strong initial bite with a coefficient of friction and rotor friendliness unmatched in the industry. Fade resistance is in excess of 1475°F (801°C). XP10™ still maintains the highly-praised release, excellent modulation and rotor friendliness that have made all Carbotech™ compounds so successful. NOT FOR STREET USE! Carbotech XP12 Another highly successful XP™ series compound with an excellent initial bite, torque and fade resistance over and above the XP10™ compound. XP12™ has a temperature range of 250°F to 1850°F+ (121°C to 1010°C+). The XP12™ has that excellent Carbotech™ release and modulation that has made all other Carbotech™ compounds so successful. The XP12™ is more rotor aggressive than XP10™ but compared to the competition the XP12™ is still very rotor friendly. NOT FOR STREET USE! Carbotech XP20 XP20™ is the latest iteration of the highly successful XP™ series of compounds.  With an extremely aggressive initial bite, linear torque curve and excellent fade resistance the XP20™ is a major step in a progression of the XP™ series of compounds from Carbotech™. XP20™ has a temperature range of 275°F to 2000°F+ (135°C to 1093°C+). Carbotech™ XP20™ maintains our tradition of having the outstanding release and modulation that has made all other Carbotech™ compounds so successful.  NOT FOR STREET USE! Carbotech XP24 XP24™ is the pinnacle compound of the extremely successful XP™ Series of compounds engineered by Carbotech™. This compound is based on the same fundamentals that exist in all other Carbotech™ formulations. XP24™ has even more initial bite, more overall bite, and more torque along with the most linear torque curve we have ever offered. The thermal characteristics are of the highest Carbotech™ offers along with one of the highest coefficient of friction ratings offered by anyone in the braking industry. This compound is the longest wearing compound Carbotech™ offers as it was originally engineered for endurance applications at the highest pro racing levels. This revolutionary new compound has been extremely successful with an open wheel, closed wheel, sprint, and endurance applications. XP24™ has a temperature range of 400°F to 2000°F+ (204°C to 1093°C+). NOT FOR STREET USE! Carbotech CT1471 Frequently Asked Questions (FAQ) 1. Which Carbotech compound is best for daily driving? 1521 is ideal for spirited street use with minimal dust and noise.. 2. What’s the best compound for beginner HPDE drivers? XP8 is a great starting point for advanced HPDE, offering strong bite and fade resistance without being overly aggressive. 3. Can I mix Carbotech compounds front and rear? Yes, many drivers use a more aggressive compound in the front (e.g., XP12) and a slightly less aggressive one in the rear (e.g., XP10) to fine-tune balance. 4. Are Carbotech pads hard on rotors? No. All Carbotech compounds are known for being rotor-friendly, helping reduce rotor wear and operating costs. 5. Which compound is best for endurance racing? RP2 is engineered specifically for long-distance events where pad and rotor life are just as important as torque output. 6. Do Carbotech pads require special bedding procedures? Yes. A proper bedding-in process is critical for optimal performance. Carbotech provides detailed bedding instructions with every set of pads. Carbotech Brake Pad Bedding Procedures The bedding process transfers friction material from the pads into the pores of the brake rotor. It also matches the microscopic contours of the pads and rotors to increase surface contact. Proper bedding of pads & rotors will result in greater performance, longer pad life & less rotor wear. Failure to properly bed in your pads could lead to friction materials chunking and breaking up. This could also lead to overheating your pads and causing them to glaze over resulting in the car not being able to stop or slow fast enough. All new brake pads require a bedding process. The proper way to bed your brake pads and brake discs (rotors) is to bed them on the racetrack, NOT on the street. Start this process by pumping your brakes a few times to assure proper installation. Once on track perform several moderate (medium) near stops (to a very slow rolling speed) to thoroughly warm up the pads and rotors. This should take 1-2 laps. This allows a thin layer of the pad material to be transferred into the micro-grooves of the rotor. After the pads/rotors are warm, perform a series of hard near stops (to a slow rolling speed) until some brake fade is felt. This process should take about 2-4 laps (depending on the track). Once this occurs, then stay off the brakes (as much as possible) and bring your car into the pits/paddock to completely cool. Do not lock the tires during this operation. Allow brake pads and/or rotors cool down to ambient temperatures; no less than 30 minutes. The total bedding procedure should not take more than 5-6 laps or about 10-15 minutes. Failure to properly bed in your pads could cause friction material to chunk and break up resulting in poor pad performance and pad life. Improper bedding can also lead to overheating your pads and causing them to glaze over, resulting in the car not being able to stop or slow properly.

Cobalt Brake Pads Porsche D1389 Racing Brake Pads (Rear) - 18mm Cobalt D1389 Fits The Following Vehicles: Make Model Build (Year) Front Rear Porsche 991 3.4 Carrera [iron brakes] 12 - 16 X Porsche 991.2 3.0 Carrera [iron brakes] 17 - 19  X Porsche 992 3.0 Carrera [iron brakes] 20 - X Porsche 997 3.6 C & 3.6 C4 08 - 11 X Porsche 718 Boxster 2.0 [982] 16 - X Porsche 718 Boxster S 2.5 [982] 16 - X Porsche Boxster 2.7 [981] 12 - X Porsche Boxster GTS 3.4 [981] 14 - X Porsche Boxster S 3.4 [981] 12 - X Porsche 718 Cayman 2.0 [982] 16 - X Porsche 718 Cayman S 2.5 [982] 16 - X Porsche Cayman 2.7 [981] 13 - X Porsche Cayman GTS 3.4 [981] 14 - X Porsche Cayman S 3.4 [981] 13 - X Cobalt Friction Technologies, Inc. is a leading developer & manufacturer of friction compounds for high-performance and professional motorsport disc brake applications. With our industry-leading range of race-proven XR-Series Carbon-Ceramic materials, Cobalt has a solution to meet your most demanding performance requirements, while always exceeding your expectations with superior technical and race engineering support. PASSION The heart and soul of Cobalt Friction Technologies is fueled by our never-ending passion for motorsports. Our teams and drivers continually place greater demands on their equipment, and Cobalt Friction is there to satisfy these demands every step along the way. PERFORMANCE Cobalt Friction's customer-driven research & development is what sets us apart from the competition. Our engineers do not design compounds based on lab results alone or to solely meet overly simplified, uni-dimensional "performance criteria". Rather, we continually "step outside the box" by working with and collecting feedback from our drivers and teams at all levels of professional and amateur motorsports, right there at the race track...week in and week out. When being the best and finishing first is the only option, Cobalt Friction accepts zero compromises, and so do our customers and teams. TECHNICAL EXCELLENCE Cobalt-equipped drivers and teams are backed by race engineering support that is second to none. From the garages at the Rolex 24 at Daytona to the paddock at the SCCA Nationals, Cobalt Friction Technologies delivers the products, knowledge and power to win.

Cobalt Brake Pads Porsche D1417 Racing Brake Pads (Rear) - 16mm Cobalt D1417 Fits The Following Vehicles: Make Model Build (Year) Front Rear Porsche 991 3.4 Carrera [ceramic brake caliper with RBD cast iron disc ] 11 -19 X Porsche 991 3.4 Carrera [ceramic brakes] 11 - 15 X Porsche 991 3.8 Carrera S [ceramic brake caliper with RBD cast iron disc] 11 -19 X Porsche 991 3.8 Carrera S [ceramic brakes] 11 - 15 X Porsche 991 3.8 Carrera S / GTS [iron brakes] 11 - 15 X Porsche 991.2 3.0 Carrera [ceramic brakes] 15 - 19 X Porsche 991.2 3.0 Carrera S [ceramic brakes] 15 - 19 X Porsche 991.2 3.0 Carrera S [iron brakes] 15 - 19 X Porsche 991.2 3.0 Carrera GTS [iron brakes] 17 - 19 X Porsche 992 3.0 Carrera [iron brakes] 20 -  X Porsche 992 3.0 Carrera S [iron brakes] 20 -  X Porsche 992 3.0 Carrera 4S [iron brakes] 20 -  X Cobalt Friction Technologies, Inc. is a leading developer & manufacturer of friction compounds for high-performance and professional motorsport disc brake applications. With our industry-leading range of race-proven XR-Series Carbon-Ceramic materials, Cobalt has a solution to meet your most demanding performance requirements, while always exceeding your expectations with superior technical and race engineering support. PASSION The heart and soul of Cobalt Friction Technologies is fueled by our never-ending passion for motorsports. Our teams and drivers continually place greater demands on their equipment, and Cobalt Friction is there to satisfy these demands every step along the way. PERFORMANCE Cobalt Friction's customer-driven research & development is what sets us apart from the competition. Our engineers do not design compounds based on lab results alone or to solely meet overly simplified, uni-dimensional "performance criteria". Rather, we continually "step outside the box" by working with and collecting feedback from our drivers and teams at all levels of professional and amateur motorsports, right there at the race track...week in and week out. When being the best and finishing first is the only option, Cobalt Friction accepts zero compromises, and so do our customers and teams. TECHNICAL EXCELLENCE Cobalt-equipped drivers and teams are backed by race engineering support that is second to none. From the garages at the Rolex 24 at Daytona to the paddock at the SCCA Nationals, Cobalt Friction Technologies delivers the products, knowledge and power to win.

GiroDisc 1417 Rear Racing Brake Pads  GP30-1417.16 Brake Pads Designed to deliver race-level performance on the street, these pads blend aggressive stopping power with rotor preservation, making them an ideal choice for motorsport enthusiasts who demand reliability and precision. The GiroDisc GP30 Endurance Race Pads feature a premium compound optimized for the unique demands of automotive racing and spirited street driving. Their advanced formulation guarantees a firm, predictable bite that enhances braking confidence during high-speed track sessions or aggressive daily driving. These pads are designed to maintain their grip under intense conditions without excessive fade or rotor wear. GP35-1417.16 Brake Pads Our GP35 compound combines the best of both worlds into one all-around race pad. We took some of the longevity of our endurance pads, some of the bite of our sprint pads, and worked to develop a compound that can do it all. As a bonus, it’s easy to bed, which means less time figuring your brakes out, and more time driving on the track. The GP35 is designed to work with street car ABS as well as motorsport-grade ABS found in factory-built race cars. The torque curve is designed to be smooth and linear, which leads to superior modulation and release under trail braking. These pads work with a wide range of tires, from DOT street tires to R-compounds to full race slicks. It has become our most popular compound and is the compound we recommend most frequently to track day drivers and shops running cars in professional racing series. GP40-1417.16 Brake Pads GP40 compound falls between a sprint and an endurance compound. It maintains good bite and pedal feel while being friendly to your rotors. They are a favorite among our track day customers and shares a lineage with compounds found on cars competing in legendary races like the 24 Hours of Le Mans. These pads have been race-tested and hold up to the brutal conditions on the track. GiroDisc 1417 FITMENT GUIDE: Make Model Build (Year) Front Rear Porsche 991 3.4 Carrera [ceramic brake caliper with RBD cast iron disc ] 11 -19 X Porsche 991 3.4 Carrera [ceramic brakes] 11 - 15 X Porsche 991 3.8 Carrera S [ceramic brake caliper with RBD cast iron disc] 11 -19 X Porsche 991 3.8 Carrera S [ceramic brakes] 11 - 15 X Porsche 991 3.8 Carrera S / GTS [iron brakes] 11 - 15 X Porsche 991.2 3.0 Carrera [ceramic brakes] 15 - 19 X Porsche 991.2 3.0 Carrera S [ceramic brakes] 15 - 19 X Porsche 991.2 3.0 Carrera S [iron brakes] 15 - 19 X Porsche 991.2 3.0 Carrera GTS [iron brakes] 17 - 19 X Porsche 992 3.0 Carrera [iron brakes] 20 -  X Porsche 992 3.0 Carrera S [iron brakes] 20 -  X Porsche 992 3.0 Carrera 4S [iron brakes] 20 -  X

GiroDisc 1389 Front Racing Brake Pads  A race pad for all occasions. Our GP35 compound combines the best of both worlds into one all-around race pad. We took some of the longevity of our endurance pads, some of the bite of our sprint pads, and worked to develop a compound that can do it all. As a bonus, it’s easy to bed, which means less time figuring your brakes out, and more time driving on the track. The GP35 is designed to work with street car ABS as well as motorsport-grade ABS found in factory-built race cars. The torque curve is designed to be smooth and linear, which leads to superior modulation and release under trail braking. These pads work with a wide range of tires, from DOT street tires to R-compounds to full race slicks. It has become our most popular compound and is the compound we recommend most frequently to track day drivers and shops running cars in professional racing series. Note: this compound is only compatible with iron rotors. GiroDisc 1389 FITMENT GUIDE: Porsche 991 3.4 Carrera [iron brakes] 12 - 16 X Porsche 991.2 3.0 Carrera [iron brakes] 17 - 19 X Porsche 992 3.0 Carrera [iron brakes] 20 - X Porsche 997 3.6 C & 3.6 C4 08 - 11 X Porsche 718 Boxster 2.0 [982] 16 - X Porsche 718 Boxster S 2.5 [982] 16 - X Porsche Boxster 2.7 [981] 12 - X Porsche Boxster GTS 3.4 [981] 14 - X Porsche Boxster S 3.4 [981] 12 - X Porsche 718 Cayman 2.0 [982] 16 - X Porsche 718 Cayman S 2.5 [982] 16 - X Porsche Cayman 2.7 [981] 13 - X Porsche Cayman GTS 3.4 [981] 14 - X Porsche Cayman S 3.4 [981] 13 - X