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Record #119401:

Continuum damage propagation in a wedge-shape ice bar / Gye Shin Jong, Dong Kim Jae, Dale G. Karr.

Title: Continuum damage propagation in a wedge-shape ice bar / Gye Shin Jong, Dong Kim Jae, Dale G. Karr.
Author(s): Jong, Gye Shin.
Jae, Dong Kim.
Karr, Dale G.
Date: 1992.
Publisher: Golden, CO: International Society of Offshore and Polar Engineers (ISOPE)
In: Proceedings of the Second (1992) International Offshore and Polar Engineering Conference. Vol. 2. (1992.),
Abstract: Bar is modelled to simulate indentation process of ice sheet moving toward right rectangular leg of structure. Continuum damage mechanics approach is adopted for description of transition phase of ice failure due to microcracking. Stress propagation speed is obtained as function of damage. Finite difference algorithm is developed to solve governing equations on characteristic curves. Results are obtained for different apex angles and compared with those of uniform bar.
Notes:

In: The proceedings of the Second (1992) International Offshore and Polar Engineering Conference. Vol. 2 / Michael S. Triantafyllou, Jin S. Chung, Karel Karal, Alfred L. Tunik, eds.

Keywords: 624.145 -- Floating ice, engineering aspects.
624.145.1 -- Floating ice, thrust.
624.145.2 -- Floating ice, damage.
622.24 -- Drilling and boring.
551.326 -- Floating ice.
539.42 -- Ice, tensile strength.
E12 -- Glaciology: frozen ground / snow and ice engineering.
SPRI record no.: 119401

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035 ## ‡aSPRI-119401
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100 1# ‡aJong, Gye Shin.
245 10 ‡aContinuum damage propagation in a wedge-shape ice bar /‡cGye Shin Jong, Dong Kim Jae, Dale G. Karr.
260 ## ‡aGolden, CO :‡bInternational Society of Offshore and Polar Engineers (ISOPE),‡c1992.
300 ## ‡ap. 662-665 :‡bdiags.
500 ## ‡aIn: The proceedings of the Second (1992) International Offshore and Polar Engineering Conference. Vol. 2 / Michael S. Triantafyllou, Jin S. Chung, Karel Karal, Alfred L. Tunik, eds.
520 3# ‡aBar is modelled to simulate indentation process of ice sheet moving toward right rectangular leg of structure. Continuum damage mechanics approach is adopted for description of transition phase of ice failure due to microcracking. Stress propagation speed is obtained as function of damage. Finite difference algorithm is developed to solve governing equations on characteristic curves. Results are obtained for different apex angles and compared with those of uniform bar.
650 07 ‡a624.145 -- Floating ice, engineering aspects.‡2udc
650 07 ‡a624.145.1 -- Floating ice, thrust.‡2udc
650 07 ‡a624.145.2 -- Floating ice, damage.‡2udc
650 07 ‡a622.24 -- Drilling and boring.‡2udc
650 07 ‡a551.326 -- Floating ice.‡2udc
650 07 ‡a539.42 -- Ice, tensile strength.‡2udc
650 07 ‡aE12 -- Glaciology: frozen ground / snow and ice engineering.‡2local
700 1# ‡aJae, Dong Kim.
700 1# ‡aKarr, Dale G.
773 0# ‡7nnam ‡aMichael S. Triantafyllou, Jin S. Chung, Karel Karal, Alfred L. Tunik, eds. ‡tProceedings of the Second (1992) International Offshore and Polar Engineering Conference. Vol. 2. ‡dGolden, CO : International Society of Offshore and Polar Engineers (ISOPE), 1992. ‡wSPRI-119457
917 ## ‡aUnenhanced record from Muscat, imported 2019
948 3# ‡a20221006