3x14 Extra Hard Drive Shaft Pins, 4 pcs - HUDY 106074  [HSP-106074]

HUDY 106074 - SET OF Replacement Drive Shaft Pins 3x14 - Extra Hard (4)
Price:
AUD$33.78
Brand:
HUDY
Model:
HSP-106074
Condition:
Brand New
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Performance-oriented 3x14 pins

Four 3x14 replacement drive shaft pins treated to an extra hard specification by HUDY. These pins are intended for RC drivetrains where stronger pin retention and reduced elongation matter for performance tuning.

Drive pins lock shaft couplings and pass torque across joints; the increased hardness lowers wear rates and helps prevent bore ovaling under higher torque loads. The 3x14 size matches components designed for a 3 mm diameter and 14 mm length pin.

Fitment guidance: confirm bore alignment, use matched pairs where feasible to keep rotational balance, and inspect mating bores for wear or damage that could compromise the new pin's life.

Specifications

  • Item Replacement Drive Shaft Pins 3x14 - Extra Hard, 4 pcs
  • Material Extra hard grade treatment (manufacturer specified)
  • Model Number HUDY 106074
  • Compatibility Generic RC drive shafts with 3x14 pin bores

Select these extra hard 3x14 pins when tuning for tighter drivetrain response or when restoring worn pins; always double-check fitment and alignment before finishing assembly.

Remark :
Due to limited stock availability, please notice that some HUDY items may have to order from the factory and the ready time is around 8-12 weeks. Customer purchases the item is assumed to accept the waiting time which allows us to order directly from the manufacturer if the item is out of our warehouse.
Yes, reducing pin deformation can produce a firmer joint feel and more consistent power delivery, particularly under heavy acceleration or corner exits where torque spikes occur.
They are treated for improved wear resistance and are suitable for many higher torque applications, but ensure mating bores and other drivetrain parts are in good condition to avoid shifting failure points.
Harder pins may extend replacement intervals, but inspect joints regularly after upgrades to confirm there is no unexpected wear on surrounding components.
Balance drivetrain components, replace pins in pairs, and run break-in checks at low power to confirm alignment before returning to full performance settings.

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