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Cold Self-Lubrication of Sliding Ice

Achraf Atila, Sergey V. Sukhomlinov, Martin H. Müser

2025Physical Review Letters10 citationsDOIOpen Access PDF

Abstract

The low kinetic friction between ice and numerous counterbodies is commonly attributed to an interfacial water layer, which is believed to originate from preexisting surface water or from melt water induced by high contact pressures or frictional heat. However, even the currently leading theory of frictional melting appears to defy direct experimental verification. Here we present molecular simulations of ice interfaces that reveal that ice surfaces liquefy without melting thermodynamically but predominantly by cold, displacement-driven amorphization. Despite effective self-lubrication, very small ice friction is found to require water to slip past a hydrophobic counterface-or an excess amount of water, produced by, e.g., extreme sliding velocities.

Topics & Concepts

Environmental scienceMaterials scienceGeologyWinter Sports Injuries and PerformanceArctic and Antarctic ice dynamicsCryospheric studies and observations
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