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Finite Element Analyses of Modified Compact Tension Shear (MCTS)-Specimens under Mixed-Mode Loading Conditions

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Zeitschriftentitel: Applied Mechanics and Materials
Personen und Körperschaften: Qi, Gui Ying, Li, Qing Fen
In: Applied Mechanics and Materials, 29-32, 2010, S. 1334-1338
Format: E-Article
Sprache: Unbestimmt
veröffentlicht:
Trans Tech Publications, Ltd.
Schlagwörter:
General Earth and Planetary Sciences
General Environmental Science
author_facet Qi, Gui Ying
Li, Qing Fen
Qi, Gui Ying
Li, Qing Fen
author Qi, Gui Ying
Li, Qing Fen
spellingShingle Qi, Gui Ying
Li, Qing Fen
Applied Mechanics and Materials
Finite Element Analyses of Modified Compact Tension Shear (MCTS)-Specimens under Mixed-Mode Loading Conditions
General Earth and Planetary Sciences
General Environmental Science
author_sort qi, gui ying
spelling Qi, Gui Ying Li, Qing Fen 1662-7482 Trans Tech Publications, Ltd. General Earth and Planetary Sciences General Environmental Science http://dx.doi.org/10.4028/www.scientific.net/amm.29-32.1334 <jats:p>In this paper a detailed 3D-finite element analyses results of modified compact tension shear (MCTS)-specimens with an inclined crack plane or crack front under mixed-mode loading conditions are presented. It is found that under mixed-mode loading, a superposition of all fracture modes I, II and III can be generated along the straight crack front of MCTS-specimens, and the maximum of the total SERR along the crack front of two different MCTS-specimens is found at right hand side of crack front corner,where the risk of crack initial growth is highest. The computational fracture analysis is based on the calculation of separated energy release rates GI, GII and GIII along the crack front by the numerically highly effective modified virtual crack closure integral(MVCCI)-method.</jats:p> Finite Element Analyses of Modified Compact Tension Shear (MCTS)-Specimens under Mixed-Mode Loading Conditions Applied Mechanics and Materials
doi_str_mv 10.4028/www.scientific.net/amm.29-32.1334
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imprint Trans Tech Publications, Ltd., 2010
imprint_str_mv Trans Tech Publications, Ltd., 2010
issn 1662-7482
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series Applied Mechanics and Materials
source_id 49
title Finite Element Analyses of Modified Compact Tension Shear (MCTS)-Specimens under Mixed-Mode Loading Conditions
title_unstemmed Finite Element Analyses of Modified Compact Tension Shear (MCTS)-Specimens under Mixed-Mode Loading Conditions
title_full Finite Element Analyses of Modified Compact Tension Shear (MCTS)-Specimens under Mixed-Mode Loading Conditions
title_fullStr Finite Element Analyses of Modified Compact Tension Shear (MCTS)-Specimens under Mixed-Mode Loading Conditions
title_full_unstemmed Finite Element Analyses of Modified Compact Tension Shear (MCTS)-Specimens under Mixed-Mode Loading Conditions
title_short Finite Element Analyses of Modified Compact Tension Shear (MCTS)-Specimens under Mixed-Mode Loading Conditions
title_sort finite element analyses of modified compact tension shear (mcts)-specimens under mixed-mode loading conditions
topic General Earth and Planetary Sciences
General Environmental Science
url http://dx.doi.org/10.4028/www.scientific.net/amm.29-32.1334
publishDate 2010
physical 1334-1338
description <jats:p>In this paper a detailed 3D-finite element analyses results of modified compact tension shear (MCTS)-specimens with an inclined crack plane or crack front under mixed-mode loading conditions are presented. It is found that under mixed-mode loading, a superposition of all fracture modes I, II and III can be generated along the straight crack front of MCTS-specimens, and the maximum of the total SERR along the crack front of two different MCTS-specimens is found at right hand side of crack front corner,where the risk of crack initial growth is highest. The computational fracture analysis is based on the calculation of separated energy release rates GI, GII and GIII along the crack front by the numerically highly effective modified virtual crack closure integral(MVCCI)-method.</jats:p>
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author Qi, Gui Ying, Li, Qing Fen
author_facet Qi, Gui Ying, Li, Qing Fen, Qi, Gui Ying, Li, Qing Fen
author_sort qi, gui ying
container_start_page 1334
container_title Applied Mechanics and Materials
container_volume 29-32
description <jats:p>In this paper a detailed 3D-finite element analyses results of modified compact tension shear (MCTS)-specimens with an inclined crack plane or crack front under mixed-mode loading conditions are presented. It is found that under mixed-mode loading, a superposition of all fracture modes I, II and III can be generated along the straight crack front of MCTS-specimens, and the maximum of the total SERR along the crack front of two different MCTS-specimens is found at right hand side of crack front corner,where the risk of crack initial growth is highest. The computational fracture analysis is based on the calculation of separated energy release rates GI, GII and GIII along the crack front by the numerically highly effective modified virtual crack closure integral(MVCCI)-method.</jats:p>
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imprint Trans Tech Publications, Ltd., 2010
imprint_str_mv Trans Tech Publications, Ltd., 2010
institution DE-D275, DE-Bn3, DE-Brt1, DE-D161, DE-Gla1, DE-Zi4, DE-15, DE-Pl11, DE-Rs1, DE-105, DE-14, DE-Ch1, DE-L229
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physical 1334-1338
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publisher Trans Tech Publications, Ltd.
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series Applied Mechanics and Materials
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spelling Qi, Gui Ying Li, Qing Fen 1662-7482 Trans Tech Publications, Ltd. General Earth and Planetary Sciences General Environmental Science http://dx.doi.org/10.4028/www.scientific.net/amm.29-32.1334 <jats:p>In this paper a detailed 3D-finite element analyses results of modified compact tension shear (MCTS)-specimens with an inclined crack plane or crack front under mixed-mode loading conditions are presented. It is found that under mixed-mode loading, a superposition of all fracture modes I, II and III can be generated along the straight crack front of MCTS-specimens, and the maximum of the total SERR along the crack front of two different MCTS-specimens is found at right hand side of crack front corner,where the risk of crack initial growth is highest. The computational fracture analysis is based on the calculation of separated energy release rates GI, GII and GIII along the crack front by the numerically highly effective modified virtual crack closure integral(MVCCI)-method.</jats:p> Finite Element Analyses of Modified Compact Tension Shear (MCTS)-Specimens under Mixed-Mode Loading Conditions Applied Mechanics and Materials
spellingShingle Qi, Gui Ying, Li, Qing Fen, Applied Mechanics and Materials, Finite Element Analyses of Modified Compact Tension Shear (MCTS)-Specimens under Mixed-Mode Loading Conditions, General Earth and Planetary Sciences, General Environmental Science
title Finite Element Analyses of Modified Compact Tension Shear (MCTS)-Specimens under Mixed-Mode Loading Conditions
title_full Finite Element Analyses of Modified Compact Tension Shear (MCTS)-Specimens under Mixed-Mode Loading Conditions
title_fullStr Finite Element Analyses of Modified Compact Tension Shear (MCTS)-Specimens under Mixed-Mode Loading Conditions
title_full_unstemmed Finite Element Analyses of Modified Compact Tension Shear (MCTS)-Specimens under Mixed-Mode Loading Conditions
title_short Finite Element Analyses of Modified Compact Tension Shear (MCTS)-Specimens under Mixed-Mode Loading Conditions
title_sort finite element analyses of modified compact tension shear (mcts)-specimens under mixed-mode loading conditions
title_unstemmed Finite Element Analyses of Modified Compact Tension Shear (MCTS)-Specimens under Mixed-Mode Loading Conditions
topic General Earth and Planetary Sciences, General Environmental Science
url http://dx.doi.org/10.4028/www.scientific.net/amm.29-32.1334