Mountain Bikes
Precision in the Wild
Built for riders who thrive on challenge — our mountain bikes combine agility, control and durability for every trail, climb and descent.
Built for the Trail
Our mountain bikes are engineered for performance across rough terrain, designed to translate your power into confidence. Whether you ride technical singletrack, fast descents or endurance climbs, every build starts with your needs.
What Defines a Mountain Bike
- Designed for off-road control and traction
- Strong, shock-absorbing frame geometry
- Suspension options for stability
- Wider bars, tyres and gearing for balance and control
- Built to handle impact, mud and adrenaline
Why Choose Ours
Road bikes are engineered for speed and efficiency on paved surfaces. They feature lightweight frames, narrow tires, and drop handlebars to optimize aerodynamics and rider positioning. Ideal for long-distance rides, racing, and high-speed cycling, road bikes prioritize performance and agility.
Ideal Lifestyle
Explore our selection of high-performance road bikes designed for every type of rider.
Chase speed and efficiency
Ride with clubs or join gran fondos
Enjoy covering distance on clean, open roads
Appreciate precision and craftsmanship
What’s the difference?
| Best for | Road | Gravel | Mountain |
|---|---|---|---|
| Asphalt paved roads | |||
| Dirt roads | |||
| Easy trails | |||
| Technical trails | |||
| High speeds | |||
| Confort in bad roads | |||
| Everyday use | |||
| Long distances | |||
| Thin tires/elastics | |||
| Thick tires/elastics | |||
| Suspensions |
Two materials. Two philosophies
There is no “better” material only the right choice for the rider. That is why we build frames in both 3D printed titanium and carbon: so the bike adapts to the rider, not the other way around.
Titanium frames (3D printed)
Our titanium frames are manufactured using 3D printing (additive manufacturing)a modern process that allows a level of precision and design freedom not possible with traditional tube-based construction.
Advantages
- Design and geometric precision3D printing allows full control over geometry and connection points, ensuring consistency and accuracy in every frame.
- Tuned stiffness by designThrough internal lattice structures, stiffness can be adjusted locally rigid where power transfer matters, more compliant where comfort is required.
- Long-distance comfortTitanium naturally absorbs vibrations, reducing rider fatigue on rough surfaces and during extended rides.
- Durability and longevityTitanium does not corrode, is resistant to environmental conditions, and offers exceptional fatigue resistance.
- Modern, refined aestheticsAdditive manufacturing enables shapes and details that are impossible to achieve with conventional manufacturing methods.
- A balance between performance and enduranceTitanium sits between racing and touring cycling, combining efficient power transfer with comfort that remains consistent over long distances. It naturally balances the two philosophies, delivering performance when pushed and comfort when the miles start to add up.
Limitations
- Higher production costThe material and manufacturing process result in a higher finalcost.
- WeightWhile advanced, titanium remains heavier than a pure race-oriented carbon frame.
- Production timeAdditive manufacturing is more time-consuming compared to mass-produced carbon frames.
Why choose 3D printed titanium
If you value longevity, comfort, and a frame engineered for real-world riding not trends titanium offers a uniquely balanced riding experience.
Interested in more?
Learn about the different bike styles and choose the one that fits your lifestyle best.
