Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 4American Society of Mechanical Engineers, 1988 - Arctic regions |
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Page 307
... ships that have conventional hull forms . Comparisons with published ship resistance data and other analytical predictions are also provided . The present approach combines two analytical techniques : ( 1 ) plastic limit analysis is ...
... ships that have conventional hull forms . Comparisons with published ship resistance data and other analytical predictions are also provided . The present approach combines two analytical techniques : ( 1 ) plastic limit analysis is ...
Page 310
... ship's bow . With substitution and simplification , Eq . ( 6 ) becomes T 2 Ry dt m + CDE 6 O 4/2 42 + m f ABCD 2 ( 7 ) - ABF 2 1 3 T1 ) + W2 ( T2 - T2 ) 2 FR ( 0.1p gt ) [ CABED + AABF + WH √1 / tan2a + 1 / sin2ß ] ( 12 ) A factor of ...
... ship's bow . With substitution and simplification , Eq . ( 6 ) becomes T 2 Ry dt m + CDE 6 O 4/2 42 + m f ABCD 2 ( 7 ) - ABF 2 1 3 T1 ) + W2 ( T2 - T2 ) 2 FR ( 0.1p gt ) [ CABED + AABF + WH √1 / tan2a + 1 / sin2ß ] ( 12 ) A factor of ...
Page 314
... SHIP SPEED ( FT./SEC . ) 30 480 SHIP RESISTANCE ( 1000 LBS . ) 400 320 240 160 80 PREDICTION BY THE PRESENT METHOD 15 20 SHIP SPEED ( FT./SEC . ) 30 SHIP RESISTANCE ( 1000 FT . ) 50 50 NUMERICAL. RH RH t = 0.9 FT . TO T1 72 TIME , t FIG ...
... SHIP SPEED ( FT./SEC . ) 30 480 SHIP RESISTANCE ( 1000 LBS . ) 400 320 240 160 80 PREDICTION BY THE PRESENT METHOD 15 20 SHIP SPEED ( FT./SEC . ) 30 SHIP RESISTANCE ( 1000 FT . ) 50 50 NUMERICAL. RH RH t = 0.9 FT . TO T1 72 TIME , t FIG ...
Contents
OFFSHORE MECHANICS | 1 |
The Structure and Tensile Behavior of First Year Sea Ice and LaboratoryGrown Saline | 11 |
Effects of Temperature and Strain Rate on Uniaxial Compressive Strength of Naturally Formed Fresh | 19 |
Copyright | |
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analysis Arctic Arctic Engineering average beam Beaufort Sea Bering Sea buoys caisson compressive crack creep curves deflection deformation delayed elastic density diameter dome drift dynamic effect EGADS energy equation estimate experimental factor failure flexural strength floe fracture toughness freshwater ice friction coefficient gauges geostrophic wind horizontal ice drift ice edge ice force ice loads ice motion ice pressure ice sheet ice tests ice thickness ice velocity iceberg icebreaking impact increase indentation interaction island layer linear measured Mechanics and Arctic method MIZEX model ice model tests modulus Molikpaq normal force ocean Offshore Mechanics parameters peak pressure panel PVDF ratio reinforced ice Research saline samples scale sea ice sediments shear shear strength ship shown in Figure Sinha specimen speed spray ice strain gauges strain rate stress structure surface temperature tensor thermosyphon Timco tion uniaxial values vertical wind