Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 7, Parts 4-6American Society of Mechanical Engineers, 1988 - Arctic regions |
From inside the book
Results 1-3 of 86
Page 304
... values of R , the inner region becomes smaller and the maximum values of normal com- ponent velocity become larger . Figure 4 shows that the temperature boundary layer thickness decreases as or R increases . Figure 5 shows the local ...
... values of R , the inner region becomes smaller and the maximum values of normal com- ponent velocity become larger . Figure 4 shows that the temperature boundary layer thickness decreases as or R increases . Figure 5 shows the local ...
Page 304
... values of Rl , the inner region becomes smaller and the maximum values of normal component velocity become larger . Figure 4 shows that the temperature boundary layer thickness decreases as & or | R | increases . Figure 5 shows the ...
... values of Rl , the inner region becomes smaller and the maximum values of normal component velocity become larger . Figure 4 shows that the temperature boundary layer thickness decreases as & or | R | increases . Figure 5 shows the ...
Page 261
... values the dilatancy will cause a decrease of pore - water pressures and consequently an increase in the shear resistance . In the case of a penetrating object of square thickness L the pore - water pressure drop P can be described as ...
... values the dilatancy will cause a decrease of pore - water pressures and consequently an increase in the shear resistance . In the case of a penetrating object of square thickness L the pore - water pressure drop P can be described as ...
Contents
ICE PROPERTIESII | 31 |
Simple Beam Tests on Type S3 Sea | 63 |
ICE DRIFT AND DYNAMICS | 69 |
Copyright | |
32 other sections not shown
Other editions - View all
Common terms and phrases
analysis angle approximately Arctic assumed average beam calculated coefficient Cold conducted Conference constant crack creep crushing curves deflection deformation dependence determined developed drift dynamic effect elastic energy Engineering equation estimated experimental experiments factor failure field Figure flexural flow force fracture friction function given grain heat horizontal ice force ice loads ice sheet iceberg impact increase indicates International island layer length limit linear material mean measured Mechanics method motion normal Norton Sound observed obtained Ocean Offshore operating oriented panel parameters plate POSITION presented pressure properties range ratio reference region reinforced relative Report Research response saline samples scale sea ice shape ship shown shows specimen speed spray strain rate strength stress structure surface Table temperature tests thermosyphon thickness tion transfer values vertical wind