D.M. Fintelman scite author profile

To reduce air resistance, time trial cyclists and triathletes lower their torso angle. The aim of this study was to investigate the effect of lowering time trial torso angle positions on muscle activation patterns and crank torque coordination. It was hypothesized that small torso angles yield a forward shift of the muscle activation timing and crank torque. Twenty-one trained cyclists performed three exercise bouts at 70% maximal aerobic power in a time trial position at three different torso angles (0°, 8°, and 16°) at a fixed cadence of 85 rpm. Measurements included surface electromyography, crank torques and gas exchange. A significant increase in crank torque range and forward shift in peak torque timing was found at smaller torso angles. This relates closely with the later onset and duration of the muscle activation found in the gluteus maximus muscle. Torso angle effects were only observed in proximal monoarticular muscles. Moreover, all measured physiological variables (oxygen consumption, breathing frequency, minute ventilation) were significantly increased with lowering torso angle and hence decreased the gross efficiency. The findings provide support for the notion that at a cycling intensity of 70% maximal aerobic power, the aerodynamic gains outweigh the physiological/biomechanical disadvantages in trained cyclists.

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The Effect of Crosswinds on Cyclists: An Experimental Study

Fintelman

Sterling

Hemida

et al. 2014

Procedia Engineering

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A numerical investigation of the flow around a motorbike when subjected to crosswinds

Fintelman

Hemida

Sterling

et al. 2015

Engineering Applications of Computational Fluid Mechanics

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D.M. Fintelman

CFD simulations of the flow around a cyclist subjected to crosswinds

Optimal cycling time trial position models: Aerodynamics versus power output and metabolic energy

Effect of different aerodynamic time trial cycling positions on muscle activation and crank torque

The Effect of Crosswinds on Cyclists: An Experimental Study

A numerical investigation of the flow around a motorbike when subjected to crosswinds

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