We apply repetitive vertical loads to mimic countless impacts from road imperfections and jumps, ensuring the frame's long-term integrity and shock absorption.
This crucial test simulates sustained side-to-side forces, mirroring intense pedaling and cornering stresses to assess frame and component resilience over time.
The complete bicycle is subjected to controlled drops from various heights and angles, rigorously assessing the entire frame's structural resilience against real-world crash scenarios.
A calibrated mass is dropped onto specific frame points, simulating direct, concentrated impacts to verify the material's ability to absorb and withstand sudden, significant forces.
We subject the bike to repeated high-impact vertical forces, replicating demanding jumps and landings to ensure frame and component integrity under extreme dynamic loads.
This test rigorously simulates countless pedaling cycles under varying loads, assessing the drivetrain and frame's endurance against repetitive stress and power output.
Precise measurements are taken to evaluate the fork and head tube's resistance to flex and twist, critical for steering precision and confident handling during aggressive riding.
This specialized test applies continuous, high-torque forces to the disc brake system, ensuring its long-term reliability and fade resistance under sustained braking demands.
Twist Stiffness Test
Twist Stiffness Test
Twist Stiffness Test
Twist Stiffness Test
Twist Stiffness Test
Twist Stiffness Test
Twist Stiffness Test
Twist Stiffness Test
Twist Stiffness Test
Twist Stiffness Test
Twist Stiffness Test
Twist Stiffness Test
Questo sito utilizza cookie per migliorare la tua esperienza.
Cliccando “Accetta tutti” acconsenti all’uso dei cookie.
Privacy & Cookie Policy
.png)
%20(1).png)
.png){kind=spacer}
.png)