Camber is one of the most important adjustments you can make to an RC car. It helps you fine-tune your vehicle’s handling characteristics and can make a huge difference in overall performance.
The camber angle is the angle of the tires relative to the ground when viewed from the front or rear of the car. A negative camber angle means that the top of the tire is leaning inward towards the chassis, while a positive camber angle means that it is leaning outward. Adjusting your camber angle can help improve your cornering grip, reduce understeer and oversteer, and increase stability when driving at high speeds.
The amount of camber adjustment you can make to your RC car depends on its suspension design. Many cars have adjustable arms, which allow you to adjust both negative and positive camber angles.
If your car doesn’t have adjustable arms, it may be possible to shim or clip-on spacers to the suspension mounting points in order to adjust camber. Alternatively, some kits come with an adjustable toe plate which lets you adjust both toe-in and toe-out angles.
Once you’ve determined how much adjustment is possible on your particular car, it’s time to start setting up your camber angle. Generally speaking, a negative camber angle will give you more grip in corners as it puts more weight on the outside wheels during cornering. On the other hand, a positive camber angle will give you better stability at high speeds as it shifts more weight onto the inside wheels.
To get exact measurements for how much camber adjustment you need for your particular setup, it’s best to use a digital gauge or protractor. If those aren’t available, then use a ruler or straight edge to measure from one side of each tire tread to another at both front and rear wheels.
Once you have determined how much negative or positive camber angle is optimal for your setup, then it’s time to adjust your suspension accordingly. On adjustable arm suspensions this involves loosening all four screws holding them in place and adjusting their length until they reach their desired length for each wheel. Be sure not to overtighten them afterwards as this can cause permanent damage.
In conclusion, adjusting the cambers on an RC car is essential for improving its performance and handling characteristics. It involves measuring out how much negative or positive cambers are optimal for each wheel using either digital gauges or rulers and then adjusting the suspension accordingly. By taking proper measurements and making accurate adjustments you should be able to significantly improve your RC car’s performance.
Conclusion:
Adjusting the cambers on an RC car is an important step in ensuring its optimal performance and handling characteristics. Measurements must be taken using either digital gauges or rulers before making any adjustments so that they are accurate and precise. Once done properly, these adjustments should lead to improved performance from your RC car both on track and offroad!
