Archivio Istituzionale della RicercaNatural sintering in ice is a fundamental process determining mechanical properties of various ice forms. According to the literature, limited data are available about the complex subjects of snow sintering and bond formation. Here, through cold laboratory mechanical tests with a new shear apparatus we demonstrate time-dependent effects of isothermal sintering on interface strengthening at various normal pressures. Measurements showed that interfacial strength evolved rapidly, conforming to a power law (mean exponent ≈ 0.21); higher pressure corresponded to higher initial strength and sintering rates. Our findings are consistent with observations on homogeneous snow, provide unique records essential for slope stability models and indicate the significant importance of normal load on data interpretation.
Healing of snow surface-to-surface contacts by isothermal sintering / E. A., Podolskiy; Barbero, Monica; Barpi, Fabrizio; G., Chambon; BORRI BRUNETTO, Mauro; Pallara, Oronzo Vito; Frigo, Barbara; Chiaia, Bernardino; M., Naaim. - In: THE CRYOSPHERE. - ISSN 1994-0424. - STAMPA. - 8:(2014), pp. 1651-1659. [10.5194/tc-8-1651-2014]
Healing of snow surface-to-surface contacts by isothermal sintering
BARBERO, Monica;BARPI, Fabrizio;BORRI BRUNETTO, Mauro;PALLARA, Oronzo Vito;FRIGO, BARBARA;CHIAIA, Bernardino;
2014
Abstract
Natural sintering in ice is a fundamental process determining mechanical properties of various ice forms. According to the literature, limited data are available about the complex subjects of snow sintering and bond formation. Here, through cold laboratory mechanical tests with a new shear apparatus we demonstrate time-dependent effects of isothermal sintering on interface strengthening at various normal pressures. Measurements showed that interfacial strength evolved rapidly, conforming to a power law (mean exponent ≈ 0.21); higher pressure corresponded to higher initial strength and sintering rates. Our findings are consistent with observations on homogeneous snow, provide unique records essential for slope stability models and indicate the significant importance of normal load on data interpretation.
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https://hdl.handle.net/11583/2562348
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