Bike Fit Optimization
Intermediate
10 min read
0 views
Nov 28, 2025
Bike Fit Optimization
Proper bike fit maximizes power output, improves aerodynamics, and prevents injury - data-driven fitting combines biomechanics with performance metrics.
Key Fit Measurements
- Saddle height: Affects power output and knee angle
- Saddle fore/aft: Impacts hip angle and weight distribution
- Handlebar reach: Determines aero position and comfort
- Handlebar drop: Affects aerodynamics and breathing
- Cleat position: Influences power transfer and knee tracking
Power-Based Fit Validation
- Test FTP at different saddle heights
- Measure power output in various positions
- Compare aerodynamics vs power trade-offs
- Assess comfort on long rides (3+ hours)
Common Fit Issues
- Saddle too high: Hip rocking, hamstring strain, reduced power
- Saddle too low: Quad dominance, knee pain, reduced efficiency
- Reach too long: Back pain, difficult to breathe, unsustainable aero
- Reach too short: Poor aerodynamics, cramped position
Time Trial vs Road Bike Fit
TT bikes allow more aggressive positions with base bars and clip-on extensions. Road bikes require compromise between climbing position (upright, hands on hoods) and aero position (drops, elbows in). Most riders need different fits for different race types.
Discussion
Have questions or feedback? Join our community discussion on
Discord or
GitHub Discussions.
Table of Contents
Related Topics
Quick Actions