Fast, tight and confident in turns the HEAD Worldcup Rebels i.SL RD SW RP WCR 14 2020 is the ultimate competition slalom ski for pro level speed freaks. We have given the ski a super responsive positive camber for aggressive reactivity and lightning acceleration, plus a wood core Worldcup Sandwich Construction with the enhanced control of Titanal and the perfect balance, weight saving and strength of Graphene. Also endowed it with KERS for added turbo and the stabilising effects of Intelligent Technology for smoother, snappier performance.
HEAD Worldcup Rebels i.SL RD SW RP WCR 14 2020 are also used by legends of the sport, to name a few, Ted Ligety, Andre Myhrer, Lindsey Vonn, Lara Gut.
- KERS, Intelligence Technology.
- Graphene Worldcup sandwich construction.
- RD racing top sheet.
- Race structured high speed UHM C base.
- Rebel camber.
- FIS approved Slalom Race ski.
- Infra-red base waxing.
For ladies and technically strong junior racers we recomend the Freeflex EVO 14 X.
For male skiers and very technically strong ladies we recommend the Freeflex EVO 16.
If you are not sure, consult your coach about what is right for you or your son/daughter or give us a call.
Includes binding setup when purchased with bindings! *please leave boot shell size (in mm) in the comments on checkout (if you are having trouble finding the shell size just leave it blank and we will email you to get you sorted)*
Technologies in detail:
Originating in Formula 1 and putting our riders where they belong: in pole. KERS Technology works like a turbo charger that provides additional power and acceleration by stiffening the tail of the ski in outturns.
Still the most effective electronic ski management system on the market. Adaptive HEAD Intelligence Technology helps your ski perform perfectly – both relative to terrain and your individual riding mode.
GRAPHENE is the thinnest and lightest element ever discovered by mankind. GRAPHENE is also the strongest material on the planet, stronger than diamond and 300 times stronger than steel, all in the thickness of one atom.