This is a brand new clutch kit made in the USA. This clutch kit contains the main essentials to do your clutch replacement and is perfect for any stock or slightly modified car. Provides an aggressive engagement with quicker shifting. Grip Racing clutches for manual transmissions achieve greater rotational strength at lower cost through the use of two-sided double-layer facings (friction and reinforcement materials). Their damper mechanisms greatly reduce torque fluctuation from the engine and ensure brisk starts with smooth shifting. These clutches feature a-push type pressure plate, a damper mechanism for reducing transmission noise, and high-strength material with a high friction coefficient, to deliver high speed and high output at a low cost. Before any design goes into production it goes through rigorous tests that simulate severe driving conditions, which ensure perfect performance in your vehicle. Additionally, no part will leave the factory without a robotic and visual inspection,which guarantees quality you can stand behind.
Our clutch kit includes:
- Stock Push Type Pressure Plate
- Stage 3 6-Puck Racing Disc (215mm, 24 spline)
- Premium Release Bearing
- Pilot Bushing
- Alignment Tool
- 11lbs 4140 Chromoly Flywheel
2002-2006 Acura RSX TYPE-S 2.0L K20 6SPD
2006-2011 Honda Civic Si 2.0L K20 6SPD
Important note: The clutch kit and flywheel must be used together as a conversion kit For:
2002-2006 Acura RSX Base Coupe, L Coupe 2.0L K20, 5 speed
2002-2005 Honda Civic Si Hatchback 3-Door 2.0L K20, 5 speed
Our 6-puck sprung disc offers a great engagement for low, mild, and high TQ/HP applications. This disc can be paired with any of our pressure plates or any other brand. This disc is built for great holding capacity and enables drivers to shift quicker than usual and hard slips all the way to the finish line. Due to the weight of the drive plate, your shifts will become much more easier, lighter and also quicker. Our 6-puck, spring-centered race disc features a spring-center construction to properly damp torsional vibrations and resist failure under harsh conditions. GRIP's spring retainers utilize wrap around spring windows and thicker retainer stampings to provide spring support, reduce stress concentrations, and increase strength and reliability. With the 6-puck, spring-centered race disc engagement is aggressive but streetable. The disc can absorb three times more amount of heat then a regular OEM disc. Our race disc is recommended for all types of racing. Its also available for every application. 500 mile break-in is mandatory to receive the best results. Suggested for any modified, street & track driven application. CLUTCH CHATTER IS NORMAL ON ALL PUCK CLUTCHES.
With years of expertise our engineers design, develop, test and manufacture distinctive friction and steel materials. We manufacture outstanding friction and steel materials with remarkable friction and wear characteristics that will help engage the clutch smoothly. The disc spring is the center section of a clutch disc in which we add stronger springs with a semi-closed retainer to prevent any springs from popping out and destroying another important part in your engine. Our spring-type disc are used worldwide to put an end to all engine and driveline noise by absorbing vibrations. This provides you a comfortable driving style.
Miba buttons are produced using a patented “sprinkling technique”, and compacted powder metallurgy. Metal powder is first sprinkled and compacted directly on the steel backing plate using precision tools and high pressure. This procedure helps to assure a 100% sintered bond. The sintering is then carried out in furnaces at temperatures up to 2400°F degrees. The powders fuse together (sinter) into a solid material, matching the desired load. A final “coining” operation, which includes color-coding and testing, ensures exact material density, thickness consistency, and precise centering on the backing plate. Unlike other manufacturers that rely on large amounts of low-cost iron as a “filler” material, Miba relies on a bronze-based material while adding only small amounts of iron to act as a hardening agent. Buttons that use a higher content of bronze, versus iron, are more expensive to produce. However, higher levels of wear resulting from the use of iron buttons prematurely destroys cores and cost substantially more in the long run, resulting in the need to purchase replacement plates and carriers more often.