Features | |
Modell | Giant Propel Advanced Pro Cadex 2024 |
Rahmen | GIANT Propel Advanced Carbon,New 2023 |
Gabel | Propel Advanced Disc |
- | |
Steuersatz | Giant |
Vorbau | Giant Contact SL New Aero |
Lenker | Deda Vinci Carbon |
Vorderradbremse | Shimano Ultegra R8170 |
Hinterradbremse | Shimano Ultegra R8170 |
Bremshebel | Shimano Ultegra R8170 |
Umwerfer | Shimano Ultegra R8150 Di2 |
Schaltwerk | Shimano Ultegra R8150 Di2 |
Schalthebel | Shimano Ultegra R8170 Di2 |
Kassette | Shimano Ultegra R8100 |
Kette | Shimano HG 801 |
Kurbel | Shimano Ultegra R8100 |
Innenlager | Shimano Pressfit |
Pedale | - |
Vorderrad | Cadex 50 Ultra , Carbon hookless WheelSystem |
Hinterrad | Cadex 50 Ultra , Carbon hookless WheelSystem |
Reifen vorne | Conti GP 5000 S TR |
Reifen hinten | Conti GP 5000 S TR |
Sattelstütze | Giant Aero Carbon Seatpost |
Sattel | Selle Iltalia SLR |
Bemerkungen |
Integrated Aerodynamics
The guiding design principle behind the new Propel is its AeroSystem Shaping Technology. This is a process that can be viewed as a sum of all parts. It’s about analysing every tube, junction, angle and component—both individually and, more critically, as a holistic system.
The goal when creating all the different parts that make up this system is to simulate real-world riding conditions. The engineering team starts this process with airflow simulation software called computational fluid dynamics (CFD). After all the numbers are crunched, the physical forms are created. Then comes wind-tunnel testing, followed by the final step, which is to produce sample bikes and test them on the road with our pro athletes.