Finite element modeling and experimental studies on mixed mode-I/III fracture specimens
In this study, finite element modeling and experimental studies on a mode-I/III specimen similar to the compact tension specimen are presented. By using bolts, the specimen is attached to two loading apparatus that allow different levels of mode-I/III loading by changing the loading holes. Specime...
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| Format: | Article |
| Language: | English |
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Gruppo Italiano Frattura
2016-01-01
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| Series: | Fracture and Structural Integrity |
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| Online Access: | http://www.gruppofrattura.it/pdf/rivista/numero35/numero_35_art_40.pdf |
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| _version_ | 1841562999719985152 |
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| author | M. Bozkurt A. O. Ayhan M. F. Yaren S. İriç |
| author_facet | M. Bozkurt A. O. Ayhan M. F. Yaren S. İriç |
| author_sort | M. Bozkurt |
| collection | DOAJ |
| description | In this study, finite element modeling and experimental studies on a mode-I/III specimen similar to
the compact tension specimen are presented. By using bolts, the specimen is attached to two loading apparatus
that allow different levels of mode-I/III loading by changing the loading holes. Specimens having two different
thicknesses are analyzed and tested. Modeling, meshing and the solution of the problem involving the whole
assembly, i.e., loading devices, bolts and the specimen, with contact mechanics are performed using ANSYSTM.
Then, the mode-I/III specimen is analyzed separately using a submodeling approach, in which threedimensional
enriched finite elements are used in FRAC3D solver to calculate the resulting stress intensity
factors along the crack front. In all of the analyses, it is clearly shown that although the loading is in the mode-I
and III directions, mode-II stress intensity factors coupled with mode-III are also generated due to rotational
relative deformations of crack surfaces. The results show that the mode-II stress intensity factors change sign
along the crack front and their magnitudes are close to the mode-III stress intensity factors. It is also seen that
magnitudes of the mode-III stress intensity factors do not vary much along the crack front. Fracture
experiments also performed and, using the stress intensity factors from the analyses and crack paths and
surfaces are shown. |
| format | Article |
| id | doaj-art-742a4a6534324f68872e068efbe99271 |
| institution | Kabale University |
| issn | 1971-8993 1971-8993 |
| language | English |
| publishDate | 2016-01-01 |
| publisher | Gruppo Italiano Frattura |
| record_format | Article |
| series | Fracture and Structural Integrity |
| spelling | doaj-art-742a4a6534324f68872e068efbe992712025-01-03T00:27:00ZengGruppo Italiano FratturaFracture and Structural Integrity1971-89931971-89932016-01-01103535035910.3221/IGF-ESIS.35.40Finite element modeling and experimental studies on mixed mode-I/III fracture specimensM. Bozkurt0A. O. Ayhan1M. F. Yaren2S. İriç3Sakarya University,TurkeySakarya University,TurkeySakarya University,TurkeySakarya University,TurkeyIn this study, finite element modeling and experimental studies on a mode-I/III specimen similar to the compact tension specimen are presented. By using bolts, the specimen is attached to two loading apparatus that allow different levels of mode-I/III loading by changing the loading holes. Specimens having two different thicknesses are analyzed and tested. Modeling, meshing and the solution of the problem involving the whole assembly, i.e., loading devices, bolts and the specimen, with contact mechanics are performed using ANSYSTM. Then, the mode-I/III specimen is analyzed separately using a submodeling approach, in which threedimensional enriched finite elements are used in FRAC3D solver to calculate the resulting stress intensity factors along the crack front. In all of the analyses, it is clearly shown that although the loading is in the mode-I and III directions, mode-II stress intensity factors coupled with mode-III are also generated due to rotational relative deformations of crack surfaces. The results show that the mode-II stress intensity factors change sign along the crack front and their magnitudes are close to the mode-III stress intensity factors. It is also seen that magnitudes of the mode-III stress intensity factors do not vary much along the crack front. Fracture experiments also performed and, using the stress intensity factors from the analyses and crack paths and surfaces are shown.http://www.gruppofrattura.it/pdf/rivista/numero35/numero_35_art_40.pdfFractureMixed ModeMode-I/IIICompact Tension TearFinite Element Method |
| spellingShingle | M. Bozkurt A. O. Ayhan M. F. Yaren S. İriç Finite element modeling and experimental studies on mixed mode-I/III fracture specimens Fracture and Structural Integrity Fracture Mixed Mode Mode-I/III Compact Tension Tear Finite Element Method |
| title | Finite element modeling and experimental studies on mixed mode-I/III fracture specimens |
| title_full | Finite element modeling and experimental studies on mixed mode-I/III fracture specimens |
| title_fullStr | Finite element modeling and experimental studies on mixed mode-I/III fracture specimens |
| title_full_unstemmed | Finite element modeling and experimental studies on mixed mode-I/III fracture specimens |
| title_short | Finite element modeling and experimental studies on mixed mode-I/III fracture specimens |
| title_sort | finite element modeling and experimental studies on mixed mode i iii fracture specimens |
| topic | Fracture Mixed Mode Mode-I/III Compact Tension Tear Finite Element Method |
| url | http://www.gruppofrattura.it/pdf/rivista/numero35/numero_35_art_40.pdf |
| work_keys_str_mv | AT mbozkurt finiteelementmodelingandexperimentalstudiesonmixedmodeiiiifracturespecimens AT aoayhan finiteelementmodelingandexperimentalstudiesonmixedmodeiiiifracturespecimens AT mfyaren finiteelementmodelingandexperimentalstudiesonmixedmodeiiiifracturespecimens AT siric finiteelementmodelingandexperimentalstudiesonmixedmodeiiiifracturespecimens |