The consolidation and bond strength of rafted sea ice

The consolidation and bond strength of rafted sea ice were investigated through a series of experiments undertaken in the Ice Physics Laboratory at the UCL. To simulate a section of rafted sea ice, blocks of laboratory grown saline ice were stacked in an insulated tank with spacers between adjacent...

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Bibliographic Details
Published in:Cold regions science and technology 2012-12, Vol.83-84, p.37-48
Main Authors: Bailey, Eleanor, Sammonds, P.R., Feltham, D.L.
Format: Article
Language:English
Subjects:
Bonding strength
Consolidation
Ice bond strength
Ice shear strength
Liquids
Marine
Rafted sea ice
Salinity
Sea ice
Shear strength
Simulation
Strength
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Summary:The consolidation and bond strength of rafted sea ice were investigated through a series of experiments undertaken in the Ice Physics Laboratory at the UCL. To simulate a section of rafted sea ice, blocks of laboratory grown saline ice were stacked in an insulated tank with spacers between adjacent blocks to allow saline water to flood in. The rate of consolidation was then monitored using a combination of temperature readings recorded in the ice and liquid layer, salinity measurements of the liquid layer, and cores taken at specific times of interest. Two states of consolidation were observed: thermodynamic consolidation where the ice blocks were physically bonded but the bond strength was weak, and mechanical consolidation where the bond had reached full strength. Results showed that the rafted ice had physically bonded in less than a day, however it took many more days (6 to 30 depending on the environmental conditions) for the bond to reach maximum strength. Increasing the thickness of the ice, the salinity of the water and the inter-block gap size all increased the consolidation time. Once consolidated, ice cores were taken and sheared using the asymmetric four-point bending method to measure the strength of the bond between the ice blocks. These were then compared to the shear strength of solid ice blocks simulating level sea ice. Our results show that the shear strength of the bond between the rafted ice blocks is about 30% weaker than that of level ice. ► The consolidation and bond strength of rafted sea ice was investigated experimentally. ► Rafted ice had physically bonded in less than a day but the bond strength was weak. ► It took several days for the bond to reach maximum strength. ► Ice thickness, water salinity and gap size all affect consolidation time. ► The bond between rafted ice blocks is ~30% weaker than that of level ice.
ISSN:0165-232X
1872-7441
DOI:10.1016/j.coldregions.2012.06.002