Tamiya GF01 Aluminium Hi-torque Servo Saver 25T with Aluminium Tie Rod by GPM GF025TM  [GF025TM]

Tamiya GF01 Aluminium Hi-torque Servo Saver 25T With Aluminium Tie Rod - 1set - GPM GF025TM
Price:
USD$10.90
Brand:
GPM
Model:
GF025TM
GTIN:
4894538218435
Condition:
Brand New
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alt="Tamiya GF01 Aluminium Hi-torque Servo Saver 25T With Aluminium Tie Rod - 1set - GPM GF025TM" title="Tamiya GF01 Aluminium Hi-torque Servo Saver 25T With Aluminium Tie Rod - 1set - GPM GF025TM"

Aluminium hi-torque servo saver for GF01

The GPM GF025TM set provides an aluminium hi-torque servo saver paired with an aluminium tie rod designed for the Tamiya GF01 platform. Built as an RC-scale replacement and hop-up, the assembly focuses on reducing plastic flex at the steering linkage and offering a firmer mechanical connection between the servo output and steering knuckles.

This kit is intended for hobby-grade Tamiya GF01 builds where increased steering feedback and repeatability are desired. The aluminium components help maintain geometry under load and offer a predictable baseline for tuning steering centring and throw without implying any real-vehicle application.

Installation is straightforward for users familiar with basic servo and linkage replacement: remove the stock saver and tie rod, fit the aluminium saver to the servo spline matching the original 25T spline count, and connect the tie rod ensuring correct toe and endplay. Adjust servo saver play or linkage length for the steering feel you want, keeping all fasteners secure before testing.

The part is intended for the Tamiya GF01 platform as stated in the product name, confirm spline count and mounting points match your servo and steering assembly before fitting.
The aluminium saver and tie rod reduce flex compared with stock plastic parts, improving steering consistency and offering a stable base for further tuning.
Check servo centring and steering geometry, set tie rod length to achieve desired toe, and verify there is no binding through full suspension travel before running the model.

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