Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 11, Part 4American Society of Mechanical Engineers, 1992 - Arctic regions |
From inside the book
Results 1-3 of 84
Page 61
... pressure generated as a result of changes in the stress state has to be calculated . The method used in this study to calculate the pore pressure is as follows . A change in total stress , { A } ' , is the sum of the changes in ...
... pressure generated as a result of changes in the stress state has to be calculated . The method used in this study to calculate the pore pressure is as follows . A change in total stress , { A } ' , is the sum of the changes in ...
Page 391
... pressure and may be determined by performing several creep tests using different pressure levels and curve fitting the yult vs p data with a power curve . However , it should be noted that , Yult cannot be obtained directly because it ...
... pressure and may be determined by performing several creep tests using different pressure levels and curve fitting the yult vs p data with a power curve . However , it should be noted that , Yult cannot be obtained directly because it ...
Page 392
... pressure . Lach ( 1989 ) reported values of n = 2.10 and n = 2.14 from his two multistage constant pressure creep tests on the same sand . The relationship between t * and p expressed by equation ( 8 ) was assumed to be linear and ...
... pressure . Lach ( 1989 ) reported values of n = 2.10 and n = 2.14 from his two multistage constant pressure creep tests on the same sand . The relationship between t * and p expressed by equation ( 8 ) was assumed to be linear and ...
Contents
ICEENVIRONMENT STATISTICS | 1 |
Characteristics of Newly Formed Ice Gouges in the Beaufort Sea Alaska | 15 |
Probabilistic Modeling of Material Strength | 21 |
Copyright | |
36 other sections not shown
Other editions - View all
Common terms and phrases
analysis angle Arctic Arctic/Polar Technology ASME beam Beaufort Sea berm calculated Canada Cold Regions comparison component condenser conducted cone conical structures crack Croasdale deflection density depth discrete element method displacement drag drag coefficient dynamic effect elastic Engineering equation evaporator experimental finite element flexural floe flow fluid form drag fracture toughness frequency friction coefficient glacier heat flux heat transfer ice cover Ice Forces ice loads ice plates ice rubble ice sheet ice thickness impact indentation indentor keel Laboratory layer length linear maximum measured forces mode offshore structure OMAE panels parameters permafrost plane strain Plastic Plastic Analysis plotted predictions ratio Ride-Up ridge rubble field scale scour sea ice sensors shear shown in Figure simulation soil solution spectral density spray ice stress surface Technology ASME 1992 temperature test data thaw thaw depth thermal Thermistor thermosyphon tube values velocity vertical