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Effect of load, ski and snow properties on apparent contact area and pressure distribution in straight gliding

Martin Mössner, Kurt Schindelwig, D. Heinrich, M. Hasler, Werner Nachbauer

2023Cold Regions Science and Technology12 citationsDOIOpen Access PDF

Abstract

Modeling of ski friction requires an in-depth understanding of the ski-snow contact. For this aim, we implemented the Euler–Bernoulli beam equations for an embedded cross-country skating ski. Apparent contact area and pressure distribution were calculated from the ski’s penetration depth using a hypoplastic force-penetration relation of snow. In a static validation experiment on an elastomer foundation, the difference between measured and calculated pressure of a loaded ski was below 5.1 kPa. For cross-country skis gliding on snow, the apparent contact area increased for increased normal load, softer snow, and decreased ski stiffness and camber. The pressure along the ski showed separated parts. The maximum pressure increased for increased normal load and harder snow. Overall, we observed an apparent contact area between 23.6 and 57.8% and a maximum pressure between 27.4 and 110.7 kPa. Concluding, a model for the ski-snow contact in straight gliding ski was developed. Apparent contact area and pressure distribution was affected by normal load, snow hardness, and ski stiffness and camber. Effects on the pressure should be considered in applications like ski construction, waxing, and modeling friction along the ski.

Topics & Concepts

SnowStiffnessContact areaCamber (aerodynamics)Materials scienceGeotechnical engineeringStructural engineeringMechanicsGeologyComposite materialEngineeringPhysicsGeomorphologyWinter Sports Injuries and PerformanceSports injuries and preventionCryospheric studies and observations
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