Litcius/Paper detail

Laboratory testing of cross-country skis – Investigating tribometer precision on laboratory-grown dendritic snow

Sondre Bergtun Auganæs, Audun Formo Buene, Alex Klein‐Paste

2022Tribology International19 citationsDOIOpen Access PDF

Abstract

Small differences in ski-snow friction results in large time gaps, and glide testing is therefore an important part of racing. To test ski-snow friction without the influence of changing weather, snow conditions and skier position is therefore valuable. In this study, a full-scale ski-snow tribometer was developed and we investigated the degree of precision obtainable for different snow types, speeds, between separate ski tracks and snow surface preparations. The precision within new snow test tracks was 1.45%, and changing between parallel tracks added another 1.03% to the precision. Measurements across several dendritic snow testbeds were associated with a further 2.39% contribution to the precision. On aged snow, better precision was obtained within and between tracks on the same snow surface.

Topics & Concepts

SnowTribometerEnvironmental scienceMeteorologyScale (ratio)Position (finance)Remote sensingMarine engineeringGeologyAtmospheric sciencesEngineeringMechanical engineeringGeographyTribologyCartographyFinanceEconomicsWinter Sports Injuries and PerformanceCryospheric studies and observationsSmart Materials for Construction
Laboratory testing of cross-country skis – Investigating tribometer precision on laboratory-grown dendritic snow | Litcius