Proceedings of the ... International Conference on Offshore Mechanics and Arctic Engineering, Volume 4; Volume 8, Part 4American Society of Mechanical Engineers, 1989 - Arctic regions |
From inside the book
Results 1-3 of 43
Page 320
... floes approached the pier . Video records and photographs were also taken during ice impacts . Although several floes impacted the stress panels , many others completely missed the pier and others veered away just before impact . This ...
... floes approached the pier . Video records and photographs were also taken during ice impacts . Although several floes impacted the stress panels , many others completely missed the pier and others veered away just before impact . This ...
Page 359
... floes and the ship is based on the kinetic theory of gases . The model has been used to calculate and compare the ... floes . x , y , z = Coordinates . μ = 3 P 1 = Coefficient of friction . Angular velocity of ice floe . = Density of ice ...
... floes and the ship is based on the kinetic theory of gases . The model has been used to calculate and compare the ... floes . x , y , z = Coordinates . μ = 3 P 1 = Coefficient of friction . Angular velocity of ice floe . = Density of ice ...
Page 360
... floe and the ship . As the ship proceeds in the broken ice it interacts with a number of ice floes as shown in Fig.1 . The number of interactions will depend on the size and concentration of ice floes , the size of the ship and the ...
... floe and the ship . As the ship proceeds in the broken ice it interacts with a number of ice floes as shown in Fig.1 . The number of interactions will depend on the size and concentration of ice floes , the size of the ship and the ...
Contents
OFFSHORE MECHANICS | 1 |
The Growth of Radial Cracks in Ice Sheets | 7 |
ICE FORCES | 11 |
Copyright | |
30 other sections not shown
Other editions - View all
Common terms and phrases
analysis angle Arctic Engineering assumed Barents Sea Beaufort Sea behaviour berm Bjørnøya calculated coefficient Cole components computed Conference on Offshore constant constitutive equation damage evolution damage model deformation density depth determined diameter distribution dynamic effect energy equation experimental factor failure force fracture mechanics fracture toughness frequency friction function Geogrid grain horizontal ice floe ice load ice sheet ice thickness iceberg icebreaking impact increase indentor initial interaction keel material maximum measured Mechanics and Arctic Mellor microcracks modulus motion notch nucleation observed obtained ocean Offshore Mechanics parameters peak stress plane polycrystalline ice predicted pressure probability Proc radar ratio resistance ridge samples sea ice seabed shear shear stress ship shown in Figure simulation specimen spray ice strain rate strain tensor strength structure surface temperature tensile tensile stress tensor tests uniaxial compression variable vector velocity vertical wave Young's modulus