Cold self-lubrication of sliding ice
Autor: | Atila, Achraf, Sukhomlinov, Sergey V., Müser, Martin H. |
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Rok vydání: | 2024 |
Předmět: | |
Druh dokumentu: | Working Paper |
Popis: | The low kinetic friction between ice and numerous counterbodies is commonly attributed to an interfacial water layer, which is believed to originate from pre-existing 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 mostly by cold, displacement-driven amorphization, as implied in the idiom constant dripping wears the stone. In fact, the ratio of wear and shear rate for ice at -10{\deg}C is even smaller than that of Niagara Falls averaged over one year. Despite efficient self-lubrication, small ice friction coefficients as observed during the sliding of hydrophobic solids over ice, appear possible only when the counterfaces are smooth and allow water to slip past them. Comment: 15 pages |
Databáze: | arXiv |
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