S-ALL Carbon Ⅱ D28-50 DISC Brake

Prix de vente$699.00 USD Prix normal$799.00 USD
Economisez $100.00

The upgraded version of S-ALL Carbon uses wider 5.2mm carbon fiber spokes, a ratchet hub system, and hybrid bearings, which are very suitable for riders pursuing extreme lightweight.

Axle: Front12*100mm,Rear 12*142mm
Freehub Body: For Shimano 9-12 speed / Sram 10-11 speed
Lock: 6 Bolt
Various Shipping Methods

Discover the freedom of wheeling with our many shipping options.

Superteam S-ALL Carbon Ⅱ D28-50 DISC Brake

Disc Brakes——An Integral Part of The Wheelset

Disc brakes respond faster due to the smaller contact area between the brake disc and brake pads. Friction is easier to build up during braking, allowing the braking system to respond to the rider's commands faster, improving the vehicle's handling. The disc brake can run smoothly in bad weather such as rain, sleet, and mud, making it suitable for riders who like to ride outdoors.

Superteam S-ALL Carbon Ⅱ D28-50 DISC Brake

Hybrid Bearings

S-ALL Carbon Ⅱ D28-50 DISC Brake uses hybrid bearings, two ceramic bearings on the front wheel, two ceramic bearings, and two steel bearings on the rear wheel. The ceramic balls in the hybrid bearings are harder than steel balls, with a smoother surface and less friction when rolling, thereby improving the rolling efficiency of the wheelset and reducing energy loss. Steel balls are stronger than ceramic balls and can reduce malfunctions during riding. The combination of steel bearings and ceramic bearings is your best choice.

5.2mm Width Carbon Spokes

S-ALL Carbon Ⅱ uses 5.2mm carbon spokes, which are by far the widest in the world. Wide carbon spokes have two main advantages: 1. Wide carbon spokes have a larger area in the transverse direction, which makes them more stable when bearing lateral forces. 2. Wide carbon spokes have a larger load-bearing area, so they can disperse more vibration and impact forces, thereby improving ride comfort. The 5.2mm spokes are also just 0.9mm thick and weigh approximately 3.4g each, further reducing climbing and aerodynamic drag.