ViFA
AT Body Mount [For 420X]
AT Body Mount [For 420X]
AT (Anti-tack) body mount
For TAMIYA 420X only
〔new function〕
- Equipped with anti-tack to prevent rear fender from getting caught
- Anti-tack is removable
- Anti-tack increases rear stability
- Cutting the carbon rod shorter increases the lightness of the rear.
- The body mount is a completely new design.
- Approximately 30% lighter than conventional products
〔Features〕
- No need to drill holes in the rear of the body. Fastens together with the wing for easy positioning.
- Improved appearance of rear body (hole/postless)
・Downforce can be transmitted reliably to the road surface, improving driving stability
- Specially designed for each vehicle model/body, easy bolt-on installation
・Ultra-lightweight design with low center of gravity
- Anti-tack included
・Screws are not included
〔detail〕
Body mount weight: Approx. 1.48g/each
Anti-tack patch: approx. 0.59g/each
Carbon rod: 0.07g/each
Total length: 37mm (center of post hole - mounting surface)
Offset: 1+mm (left/right)
Maximum body extension: 4mm
Compatible bodies: Twister series (wing pitch 98mm)
Quantity: 1 each for left and right (1 unit)
Contents: Body mount, AT patch, carbon rod
〔Note〕
・Product specifications are subject to change without notice.
・Weight and other data are for reference only and may vary.
・We aim for the highest possible quality, but layer marks and small burrs that are unique to 3DP will remain.
・We cannot accept returns or refunds due to customer reasons such as incorrect vehicle model/body.
・If you find anything that appears to be defective, please contact us with a photo before using it.
Materials
Materials
The resin used has the following characteristics:
Currently it is the third batch.
-Excellent toughness
・Shock resistance
- Bending resistance
-High safety for the human body
3rd lot: Breaking elongation value 911
Second lot: Breaking elongation value 238
First lot: Breaking elongation value 118
*Since it has low heat resistance, please use it in an ambient temperature of 60 degrees or below.
High temperatures and direct sunlight can cause deformation.