GSC Power-Division Conical High Pressure Valve Springs with Ti Retainers for Toyota 2JZ-GTE

$830.78 $635.54

SKU: 5066
Description

GSC Power-Division Conical High Pressure Valve Springs with Ti Retainers for Toyota 2JZ-GTE

Part # GSC 5066

The GSC Power-Division Conical Valve Spring Kit with Ti Retainer for the Toyota 2JZ includes 24 titanium retainers and 24 conical valve springs. True conical valve springs are not a new concept and are industry proven to provide several key advantages over traditional spring designs. A major advantage of conical springs vs. traditional cylindrical or beehive springs is the damping and removal of valvetrain harmonics. Of the three designs, conical springs are the front runners in valvetrain harmonic stability. Utilizing a varying coil diameter as well as coil spacing, a conical spring acts as a natural harmonic damper in the transfer of valvetrain shock. This translates to less stress, less wear, and a longer life of the included components. This level of protection is needed in today’s engines being pushed to their physical and mechanical limits by aftermarket modifications. Every GSC conical spring offers a superfinished surface treatment to go along with the patented, multi-step heat treatment process. The finished product is an extremely reliable, high-performance spring allowing the users to push higher RPMs, use more aggressive cam profiles, and turn up higher boost pressures.

Conical Spring Benefits:

  • Vastly improved harmonic stability with inherent self-damping design
  • Smaller design = weight reduction throughout the entire valvetrain system
  • Applications for high RPM and boost pressure with the ability to run more aggressive camshafts
  • State of the art manufacturing and engineering production processes
    GSC5066 HIgh Pressure Conical Valve Spring Kit with Ti Retainer for the Toyota 2JZ
    Setup Coil Bind (in) Install Height (in) Seat Pressure (lbs) Open Pressure with GSC S3/R2/R2M Profile Maximum Valve Lift (in)
    HP Conical 0.754 1.316 105 249 lbs @ 0.881" 0.502