The Pedaling Technique of Elite Endurance Cyclists: Changes with Increasing Workload at Constant Cadence

in Journal of Applied Biomechanics
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A pedal dynamometer recorded changes in pedaling technique (normal and tangential components of the applied force, crank orientation, and pedal orientation) of 14 elite male 40-km time trialists who rode at constant cadence as the workload increased from similar to an easy training ride to similar to a 40-km competition. There were two techniques for adapting to increased workload. Seven subjects showed no changes in pedal orientation, and predominantly increased the vertical component of the applied force during the downstroke as the workload increased. In addition to increasing the vertical component during the downstroke, the other subjects also increased the toe up rotation of the pedal throughout the downstroke and increased the horizontal component between 0° and 90°. A second finding was that negative torque about the bottom bracket during the upstroke usually became positive (propulsive) torque at the high workload. However, while torque during the upstroke did reduce the total positive work required during the downstroke, it did not contribute significantly to the external work done because 98.6% and 96.3 % of the total work done at the low and high workloads, respectively, was done during the downstroke.

The authors were/are with the Dept. of Kinesiology at the University of Texas at Austin, Austin, TX 78712. S.A. Kautz is now with the Biomedical Engineering Group, University of California, Davis, CA 95616. M.E. Feltner is now with the Dept. of Sports Medicine at Pepperdine University, Malibu, CA 90265.

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