Description
Full Power Transfer with Look Keo 2 Max Pedals
The Look Keo 2 Max pedals bring a rich history of racing excellence and state-of-the-art technology to your road bike setup. This high-performance component features a wide 500 mm² contact area that optimizes the interface between your shoe and the drivetrain. Consequently, riders experience maximum power transfer when pushing hard on the pedals during intense training sessions or steep climbs. The durable composite body ensures remarkable structural rigidity while remaining accessible to competitive amateurs and seasoned pros alike. Furthermore, this expansive support area is specifically designed to handle the grueling physical demands of famous long-distance Granfondos.
Premium Stainless Steel Contact and Stability
Designers engineered the Look Keo 2 Max pedals to deliver an exceptionally secure platform under heavy mechanical loads. First, the platform surface incorporates a premium stainless steel material plate that spans a width of 60 mm. This robust metal interface provides excellent stability through every single phase of your pedaling stroke. Second, the tough stainless steel plate actively resists early wear and friction from your cleats to maintain a crisp connection over thousands of kilometers. Therefore, athletes can rely on a consistent, flex-free platform that minimizes hot spots and maximizes comfort during massive mileage weekends.
Precision Spring Retention and Ergonomic Profile
The internal mechanism of the Look Keo 2 Max pedals utilizes a highly dependable, traditional spring retention design. Cyclists can easily adjust the tension range from a smooth 8 to a firm 12 rating to match their personal clipping preference. Next, a low 17.3 mm total stack height positions your footwear closer to the tough chromoly+ steel spindle centerline. This slim, low-profile layout improves overall pedaling ergonomics and ensures a more fluid mechanical rotation under load. Additionally, a dialed 53 mm Q-factor provides optimal lateral foot alignment relative to the crank arm to protect your knees from repetitive strain.




