Our proven high-end aluminium (6066) is extremely light and durable. Using triple butted wall thicknesses and hydroforming technology, we can tune the aluminium tubes to give the best possible stiffness to weight ratio.
Tubes are inserted into negative moulds and a hot emulsion of water and oil is forced through at pressure, enabling them to be formed into complex shapes.
The seat and chainstay profile and carbon lay-up schedule are adapted to work like a flat leaf spring, absorbing surface bumps and reducing vibrations.
Using a tapered head tube with 1 1/8" bearings in the top and 1 1/4" or 1 1/2" in the bottom creates superb stiffness and precise, confidence inspiring steering.
Sometimes called ‘double pass welding’, a second pass over the weld gives a clean organic look to the frame. At first glance, you will be convinced it is carbon.
Cables are routed through the frame, entering and exiting through smooth sockets. The bike looks neat, whilst the cables are protected from moisture and dirt.
Ensures that internally routed cables and wires can’t move freely and remain easily accessible for servicing.
Cables, housings and brake hoses are clamped under tension to prevent rattling when the trails or roads get rough. All inlets are completely interchangeable to deal with Di2, hydraulic hoses, brake cable and gear cable housings etc.
Bikes/frames with the symbol ‘Di2 Ready’ are prepared for the installation of Di2 technology with battery mounting in the seat post or within the fork steerer.
The suspension fork and/or rear shock can be locked out by a leaver that is mounted to the top of the fork and/or to the rear shock unit.
In-board brake mounts are positioned within the rear triangle to protect them. The caliper supported by the stronger chainstay is able to distribute braking forces better. Internal cable routing is also easier and neater via the chainstay.
Selected front forks use a 100 mm wide through axle 15 mm in diameter to increase lateral stiffness.
Boost standard – wider axle widths; the by 6 mm increased now 148 mm wide rear through axle (12mm axle diameter) allows a shallower spoke angle for stiffer wheels, especially beneficial in 29ers or for MTB wheels that are used in very demanding conditions. The Boost standard also offers greater tyre clearance in the frame.
A single-pivot rear suspension system optimised for XC riding and 1x drivetrains. A super light (80 g) carbon rocker and linkage system create a light, efficient rear end, totally eliminating pedal-bob.
To protect the integrity of carbon frames, the fibres are bonded together with an epoxy resin with added nano particles, increasing impact resistance by up to 40%.
When creating the individual carbon elements, an inflatable bladder is used to ensure there are no wrinkles inside the tube as these can add weight and create weakness. This results in a lighter, stiffer and stronger frame.
The suspension fork and/or rear shock can be locked out via a ‘remote control’ lever on the handlebar.
Boost standard – wider axle widths; the by 10 mm increased now 110 mm wide front through axle (15mm axle diameter) allows a shallower spoke angle for stiffer wheels, especially beneficial in 29ers or for MTB wheels that are used in very demanding conditions. The Boost standard also offers greater tyre clearance in the fork.
We use a minimum of 6061 aluminium. The pay back is that it’s possible to make lighter and more advanced frames. We use an additional heat treatment and double-butted wall thicknesses to produce light and stiff frames.
Technoforming is a mechanical forming process, shaping the tubes by using negative moulds, at times combined with an internal metal core.
‘F-Mount’ equipped bikes have integrated fittings for mud guards (some bikes require model specific mud guards), making fitting fast and simple.
‘C-Mount’ equipped bikes have the fixing points for a rear rack already integrated (some bikes require model specific rear rack), making fitting fast, simple and reliable.
Patent pending design. Carbon is good at absorbing vibration but to increase comfort we shape the seat posts using our exclusive S-Flex design.
Mounting the disc brake caliper directly saves weight as we do away with the adapter and 2 additional bolts. With less parts, set-up and maintenance are easier.
Sophisticated shape only possible due to casting technology, creating an integrated appearance as well as an extremely strong connection between the E-bike motor and frame for improved performance and reliability.
Carbon forks provide superb vibration damping and precise steering. All road bikes feature a full carbon fork; the steerer and fork blades are all made of carbon.
A 142 mm wide 12 mm rear axle fixed directly into the frame increases rear end stiffness whilst simplifying wheel removal and replacement.
Selected front forks use a 100 mm wide through axle 12 mm in diameter to increase lateral stiffness.
The aerodynamics are based around a NACA0028 teardrop profile (National Advisory Committee for Aeronautics) which is truncated. Air moves around the tube as though the missing rear section of the teardrop were still there, saving weight by using less material.
Our latest grade of aluminium (6016) enables super thin wall thicknesses whilst delivering amazing strength, ideal for demanding off-road riding and racing.
A forged aluminium component under the front and/or rear caliper allowing heat to dissipate through CNC-milled cooling fins. Tests show that temperatures are reduced by around 35 % and cooling times are shortened, optimising the performance of the brake.
The lower shock mount moves with the system to deliver sensitive response characteristics. Our engineers can precisely influence the transmission ratio, and progression meaning a ‘Float Link’ rear suspension system appears to offer more travel than the model name suggests.
Designing WorldTour bikes is similar to Formula 1: apparently nondescript details can result in saving split seconds. Integrated seat-post clamping minimises turbulence at the top tube.
Aero bikes deliver the best possible aerodynamics, but superb wind-tunnel performance data is useless if the rider can‘t get into the correct position. The ‘Flip Flop’ head allows seat angles to be optimised for comfort.
A removable seat stay bridge can be fitted for neater and more secure fitting of rear fenders, but removed for increased mud clearance and a cleaner look.