- material: carbon
- 700x28C max. wheelsize
- 100x12/ 142x12mm axle standard
- Pressfit bottom bracket standard
- 700x28C max. wheelsize
- Hydraulic disc
- 160mm
- 27.2mm diameter
- 15mm setback
- Carbon
- 50-34 teeth
- 165 mm-XXS, 170 mm-XS/S, 172.5 mm-SM/ML, 175 mm-L/XL
- 11-30 teeth
- 11 speed
- including removable lever
- 6/4mm allen key
- 100x12mm width front hub
- 142x12mm width rear hub
- 19mm inner width
- 22mm height
- Centerlock
- material: aluminium
- Tubeless ready (tubeless tape and valves not included)
- 700x25C
- fold
Misura telaio | S/M |
Misura pneumatici | 28" |
St reggisella mm. | 520 |
Tt top tube mm. | 545 |
CS Carro posteriore Mm | 408 |
Hta Gradi angolo sterzo | 73 |
Sta Gradi angolo tubo piantone | 74 |
Bd Movimento centrale mm. | 66 |
Ht Altezza tubo sterzo mm. | 150 |
FI Lunghezza forcella mm. | 375 |
R Reachs Mm | 386 |
S Stacks Mm | 555 |
Wb interasse mm | 985 |
Sh Stand Over Height Mm | 769 |
Punti salienti della categoria
The SCULTURA DISC version can be fitted with 28 mm wide tyres, providing maximum traction and transferring the improved braking power to the road. The maximum tyre width for the rim version is 25 mm.
The 12 mm bolt through axles for greater wheel stiffness and precise disc alignment when replacing wheels. The custom axle lever is removable and has a 4 mm Allen key included, so, for example, stem and seat post clamps can be tightened and loosened.
All models feature a full carbon fork with a tapered steerer to give precise, confidence-inspiring steering. All SCULTURA Alloy and CF2 carbon models feature a ‘regular’ 1 1/8" to 1 1/2" taper. The high-end SCULTURA CF4 frame has a slimmed down front profile and uses a 1 1/8" to 1 1/4" taper, the new REACTO frames a 1 1/2" to 1 1/4"taper.
Our wind tunnel learnings from the REACTO design project have been used to create a smaller aerodynamically optimised ‘NACA Fastback’ tube profile. The more extreme truncation of the teardrop shaped tubes enables perfect airflow at the lowest possible weight.
Una parte in alluminio forgiato sotto la pinza del freno a disco anteriore e/o posteriore dissipa il calore attraverso alette di raffreddamento fresate a CNC, offrendo il 35% in meno di accumulo di calore e una riduzione più rapida della temperatura per prestazioni di frenata stabili.