ICE INDENTATION TEST ON CONSOLIDATED LAYER MODEL MADE OF SALINE AND FRESHWATER ICE BLOCKS

Deformed ice such as an ice ridge or an ice rubble field may impose a large load on hydraulic structures in ice-covered areas due to its large thickness (h) and consolidated layer. A consolidated layer, which is considered to have higher strength than a sail or a keel, is modeled in a cold room for...

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Bibliographic Details
Main Author: Takahiro Takeuchi Akiyoshi Soejima
Other Authors: The Pennsylvania State University CiteSeerX Archives
Format: Text
Language:English
Subjects:
KEY WORDS
Ice load
Deformed ice
Consolidated layer
Hydraulic structures
Ice Sheet
ice covered areas
Online Access:http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.497.3108
http://web2.clarkson.edu/projects/iahrice/IAHR 2006/contents/30_s134.pdf
Description
Summary:Deformed ice such as an ice ridge or an ice rubble field may impose a large load on hydraulic structures in ice-covered areas due to its large thickness (h) and consolidated layer. A consolidated layer, which is considered to have higher strength than a sail or a keel, is modeled in a cold room for ice indentation tests. It is rational that an ice load imposed by a consolidated layer of deformed ice should be compared with that imposed by the surrounding (un-deformed) ice sheet, since many ice load equations for level ice sheets have been suggested. In this paper, the ice load of deformed ice is compared with that of level (un-deformed) ice through ice indentation tests, using saline and freshwater ice sheets. Indentation velocity (V) and cubic ice block size (a) were varied, and the effects of (a/h), (V/h) and ice failure on the ice load were investigated.

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