- CARS
- IF11 - 1/10 FORMULA
- IF11-2 1/10 FORMULA
- IF14 - 1/10 EP TC
- IF14-2 - 1/10 EP TC
- IF14-2 FWD - 1/10 EP TC
- IF14-2 FWD RS - 1/10 EP TC
- IF14-2 TEAM EDITION
- IF14-2 MID
- IF15 - 1/10 GP TC
- IF15W - 1/10 GP TC WIDE
- IF15-2 - 1/10 GP TC
- IF15-2W
- IF18 - 1/8 GP ONROAD
- IF18-2 - 1/8 GP ONROAD
- IF18-3 - 1/8 GP ONROAD
- IFB8 - 1/8 NITRO BUGGY
- IF11 - 1/10 FORMULA
- SPARE PARTS
- OPTION PARTS
- Accessories
- Infinity 1/8 onroad
16 other products in the same category:
T311 - ALU HEX WHEEL HUB (4.0mm/Black/2pcs)
Narrower than kit standard (5mm). Aluminum hex wheel hub series. Width can be set more narrow.
When used on the front, it improves steering response. When used on the rear, it improves traction.
T165-SH - REAR PRS SUSPENSION ARM (Graphite/Super Hard)
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.
SMJ1004 - SILVER LINE SPRING TS3.5 (Short/Gold/2pcs)
New standard Short-type shock springs (20mm). We selected wire 1.4mm in diameter and accurately coiled and plated it. Gold: 5 Coils For high- grip asphalt road surface Made in Japan
T159 - TITAN BALL END 4.9mm MEDIUM (4pcs)
This is a new set of super strong and high-precision 4.9mm titanium ball ends for the IF14. 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.
T138 - ALU SHOCK SPRING RETAINING COLLAR (Black/4pcs)
This shock spring retaining collar is for INFINITY IF14 shock. Made of precisely machined aluminium its extremely light and helps the shock absorber and the shock spring work more efficiently. The set contains 4pcs. of black-anodized shock spring retaining collars.
T227LW - LIGHT WEIGHT D.J.CVD JOINT (2pcs)
Lightweight DJ CVD joint that is approx 1.2g lighter than standard steel (approx 1.8g) by using lightweight and high strength super duralium (A7075). Throttle response is improved by reducing the rotating mass, while front tyre wear and understeer is reduced.