Performance and Precision with the T2M T422585B 25T Alu Servo Saver for 1/10
The T2M T422585B 25T Alu Servo Saver is a high quality part designed for 1/10 scale RC models. This aluminium component offers a durable and precise solution to protect your steering servo from impacts and stresses, improving the reliability and performance of your RC vehicle.
Durable, High-Performance Design
Made from high-quality aluminium, the servo saver provides optimum protection for your steering servo from potential shocks during use. Its robust design ensures increased durability in the most demanding conditions, while maintaining unrivalled steering accuracy.
Technical Features
- Universal 25T Compatibility: Designed to fit the majority of steering servos with a 25-tooth arm, making it compatible with a wide range of 1/10 scale RC models.
- Aluminium Material : Offers excellent shock resistance and light weight so as not to unnecessarily weigh down the model.
Easy Installation
The Alu Servo Rescue 25T T2M T422585B is easy to install, allowing a quick and hassle-free upgrade to your steering system. This addition not only improves the durability of your RC equipment but also boosts its performance by ensuring that the steering servo remains operational even in the toughest conditions.
Key Benefits
- Enhanced Protection : Minimises the risk of damage to the steering servo during collisions or heavy use.
- Improved Steering Accuracy : Maintains accurate and consistent servo response, essential for competition and riding enjoyment.
- Durability and Aesthetics : Aluminium not only extends the life of your equipment but also adds a touch of elegance to your RC model.
Why Choose the T2M T422585B 25T Alu Servo Saver?
The 25T Alu Servo Saver is the ideal investment for RC pilots looking for a solution to increase the longevity and reliability of their steering servo. Whether you're involved in competitions or RC modelling as a hobby, this premium component offers peace of mind by protecting your equipment from the unexpected, while improving the overall performance of your model.
