

This is a new set of super strong and high-precision 4.9mm titanium ball ends for the IF14-2.
Each set is about 8g lighter than the steel ones and the polished ball surface ensures the ball end moves smoothly for a long time.
Spare part for floating electronic plate set. It can be used alone as a balance weight or can function as a chassis stiffener by adding one more screw to the chassis.
An extra hard lower suspension arm using a graphite material. This arm is more stiff than the original kit version and is suitable for high grip tracks and in situations when you want to improve initial steering response.
Compared with the std kit 2.0mm thickness, further chassis flex is gained and initial steering response increased. A great match for use with optional Aluminum Super Flex Main Chassis (T345SF)
A lightweight DJ CVD cross spider using high strength super duralium (A7075) to reduce the weight by approx 36% compared with standard steel. High durability is also achieved by applying a hard alumite treatment. Used in combination with T227LW lightweight DJ CVD joint it is possible to reduce the weight by about 2g per driveshaft.
An extra hard lower suspension arm using a graphite material. This arm is more stiff than the original kit version and is suitable for high grip tracks and in situations when you want to improve initial steering response.
A full set of lower suspension arms (graphite/super hard) for IF14-2 and IF14-2FWD for one car.
This set is convenient when you want to replace lower suspension arms together for maintenance. It is also more economical than purchasing each item individually.
When using the HBP mount it can be difficult to accurately position the rear body post holes in the bodyshell. By using this rear body height fitter it is quick and easy to precisely position the body post holes at the desired body height.
Short type (41mm) front drive shaft rather than the kit standard front drive shaft (42mm).
Offers a linear steering feel, making the car easier to drive when used in high traction or oversteer situations.