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Record #88193:
- #88193
Main publication details
MARC recordAnisotropic sea ice indentation in the creeping mode / S. Shyam Sunder, J. Ganguly, S.-K. Ting.
| Title: | Anisotropic sea ice indentation in the creeping mode / S. Shyam Sunder, J. Ganguly, S.-K. Ting. |
| Author(s): | Sunder, S. Shyam. Ganguly, J. Ting, S. -K. |
| Date: | 1987. |
| In: | Journal of Offshore Mechanics and Arctic Engineering. (1987.), Vol. 109(2) (1987) |
| Abstract: | Deals with development of orthotropic elastic-power law creep model for sea ice, and development and application of finite-element method of analysis to study influence of sea-ice anisotropy on indentation in creeping mode. Numerical simulations are performed under plane stress conditions to predict influence of various factors and results are compared with those from approximate method of analysis based on upper-bound theorem. Interface pressure distributions are obtained in addition to contours of stress and strain. |
| Notes: | Journal of Offshore Mechanics and Arctic Engineering. Vol. 109(2) :211-219 (1987). |
| Keywords: | 624.145.1 -- Floating ice, thrust. 551.32 -- Glaciology. 551.326 -- Floating ice. 539.37 -- Ice, plastic and viscous deformation. 519.673 -- Modelling. E6 -- Glaciology: floating ice. |
| SPRI record no.: | 88193 |
LDR 01483naa#a2200000#a#4500 001 SPRI-88193 005 20230323042816.0 007 ta 008 230323s1987####xx#a##|##|###|0||#0|eng#d 035 ## ‡aSPRI-88193 040 ## ‡aUkCU-P‡beng‡eaacr 100 1# ‡aSunder, S. Shyam. 245 10 ‡aAnisotropic sea ice indentation in the creeping mode /‡cS. Shyam Sunder, J. Ganguly, S.-K. Ting. 260 ## ‡a[S.l.] :‡b[s.n.],‡c1987. 300 ## ‡ap. 211-219 :‡bdiags., tables. 500 ## ‡aJournal of Offshore Mechanics and Arctic Engineering. Vol. 109(2) :211-219 (1987). 520 3# ‡aDeals with development of orthotropic elastic-power law creep model for sea ice, and development and application of finite-element method of analysis to study influence of sea-ice anisotropy on indentation in creeping mode. Numerical simulations are performed under plane stress conditions to predict influence of various factors and results are compared with those from approximate method of analysis based on upper-bound theorem. Interface pressure distributions are obtained in addition to contours of stress and strain. 650 07 ‡a624.145.1 -- Floating ice, thrust.‡2udc 650 07 ‡a551.32 -- Glaciology.‡2udc 650 07 ‡a551.326 -- Floating ice.‡2udc 650 07 ‡a539.37 -- Ice, plastic and viscous deformation.‡2udc 650 07 ‡a519.673 -- Modelling.‡2udc 650 07 ‡aE6 -- Glaciology: floating ice.‡2local 700 1# ‡aGanguly, J. 700 1# ‡aTing, S. -K. 773 0# ‡7nnas ‡tJournal of Offshore Mechanics and Arctic Engineering. ‡gVol. 109(2) (1987) ‡wSPRI-84340 917 ## ‡aUnenhanced record from Muscat, imported 2019 948 3# ‡a20230323