XTD STAGE 3 CLUTCH & 11LBS FLYWHEEL KIT 93-99 MAZDA RX7 TWIN-TURBO 13B FD
XTD 6 puck "MIBA" Copper Ceramic clutch is designed for the serious enthusiast with just Stock to considerable modifications.("Miba" Copper Ceramic Material is well known for AirCraft brake material.It is more Durable and hold 60% more Torque capacity than Cabontic or Kevlar Material also "MIBA" Disc grips 30% harder than Cabontic Disc) This disc features 12 high-coefficient ceramic pads for quick engagement and the extreme duty friction needed. Our specifically designed high torque disc delivers maximum holding capacity without compromise. The sprung retainer assembly boasts 6 dual springs and 6 severe duty retainer rivets, ensuring power and reliability.This XTD Stage 3 Clutch Kit Includes XTD High Clamp Long Life Pressure plate,XTD "MIBA" 6 Puck Copper Ceramic Disc,Slave Cylinder Bearing, Alignment Tool,18lbs lighten Flywheel,XTD Clutch Installation Guide & XTD Logo Window Decal.This XTD Pressure plate Holds 30% more HP and Torque Than Stock Pressure Plate and This Pressure plate is made from ductile iron and heat Treated Which is about 20 % Stronger Than Just Stock Cast Iron Pressure plate. XTD Stage 3 Copper Ceramic Disc is designed for Ultra Racing Purpose and it Graps much harder than Carbontic or Kevlar disc also It will Increased Acceleration.However,It designed also Smooth Engagement and improved durability for Street so It won't make you difficulty on Daily Driving.This XTD Stage 3 clutch kit is Great for Just Stock or Modified Application.All XTD Racing Clutch kit Requied 500Miles Break-in Period.
NOTE: Must be used with external counterweight balance which is sold separately. Please search our store for counter weight balance listings or we also offer combo kit with counter weight
XTD Flywheels are made using the highest quality, most modern materials available. XTD could achieve manufacturing its original flywheels about 200% more strength compared with normal flywheels. It was forged using Chrome-molybdenum steel. The power of inertia rotation can be decreased by reducing the excess weight, and therefore, its strength directl