Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 4; Volume 8, Part 4American Society of Mechanical Engineers, 1989 - Arctic regions |
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Page 72
... temperature range -50 ° C to -5 ° C decrease with increasing temperature but the rate of decrease is not as significant as that in the compression tests discussed in a previous section of this paper . If the energy release rate for ...
... temperature range -50 ° C to -5 ° C decrease with increasing temperature but the rate of decrease is not as significant as that in the compression tests discussed in a previous section of this paper . If the energy release rate for ...
Page 257
... temperature and humidity of the air surrounding individual droplets ( i.e. outside the boundary layer at the surface of the droplets ) are equal to those of the ambient air . This will be enhanced by wind and the continuous sweeping ...
... temperature and humidity of the air surrounding individual droplets ( i.e. outside the boundary layer at the surface of the droplets ) are equal to those of the ambient air . This will be enhanced by wind and the continuous sweeping ...
Page 258
... temperature of sail 6. Submergence of keel . 1. Ice Growth in Droplet From the ice shell theory , the surface temperature will fall below the solidification temperature to provide the thermal gradient necessary for heat transfer across ...
... temperature of sail 6. Submergence of keel . 1. Ice Growth in Droplet From the ice shell theory , the surface temperature will fall below the solidification temperature to provide the thermal gradient necessary for heat transfer across ...
Contents
OFFSHORE MECHANICS | 1 |
The Growth of Radial Cracks in Ice Sheets | 7 |
ICE FORCES | 11 |
Copyright | |
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analysis applied approach Arctic assumed average body calculated coefficient components compression compressive stress computed considered constant crack creep damage deformation dependent depth described determined developed diameter direction distribution effect elastic energy Engineering equation estimate experiments expression factor failure field Figure floe force fracture frequency function given grain grain boundary horizontal ice sheet iceberg impact increase initial International length limit load mass material maximum mean measured Mechanics method microcracks motion normal nucleation observed obtained Offshore operation parameters peak performed plane position predicted present pressure probability range ratio Regions relation relative Research resistance ridge samples sea ice shear ship shown shows simulation specimen strain rate strength stress structure surface Table temperature tensile tensor tests thickness toughness uniaxial vertical wave