Modified compact tension specimen for experiments on cement based materials: comparison of calibration curves from 2D and 3D numerical solutions

Modified compact tension specimen for experiments on cement based materials: comparison of calibration curves from 2D and 3D numerical solutions

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The evaluation of fracture mechanics parameters of materials has become very important part of considering the condition of older constructions as well as properties of newly developed materials. This contribution focuses on a numerical simulation and a calculation of fracture mechanical properties...

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Main Authors: S. Seitl, V. Viszlay
Format: Article
Language:English
Published: Gruppo Italiano Frattura 2016-12-01
Series:Frattura ed Integrità Strutturale
Subjects:
Stress Intensity Factor
COD
CMOD
Biaxiality Factor
Modified Compact Tension Test
Fracture Mechanics of Concrete
Online Access:https://www.fracturae.com/index.php/fis/article/view/1826
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spelling doaj-3df70851241a4474a8697a738780d9562021-01-27T17:15:30ZengGruppo Italiano FratturaFrattura ed Integrità Strutturale1971-89932016-12-011139Modified compact tension specimen for experiments on cement based materials: comparison of calibration curves from 2D and 3D numerical solutionsS. SeitlV. Viszlay The evaluation of fracture mechanics parameters of materials has become very important part of considering the condition of older constructions as well as properties of newly developed materials. This contribution focuses on a numerical simulation and a calculation of fracture mechanical properties of modified compact tension test configuration. It is possible to prepare the specimens used for this test very easily from a drilled core or from specimens used for cylindrical compression test. The focus of contribution is to compare selected outputs from numerical solution of 2D (plane strain conditions) with 3D models. Particularly, the determination of the influence of 2D and 3D model on the calibration curves for selected fracture mechanics parameters is of interest. Finite element software ANSYS was used for the numerical analysis. https://www.fracturae.com/index.php/fis/article/view/1826Stress Intensity FactorCODCMODBiaxiality FactorModified Compact Tension TestFracture Mechanics of Concrete
collection DOAJ
language English
format Article
sources DOAJ
author S. Seitl
V. Viszlay
spellingShingle S. Seitl
V. Viszlay
Modified compact tension specimen for experiments on cement based materials: comparison of calibration curves from 2D and 3D numerical solutions
Frattura ed Integrità Strutturale
Stress Intensity Factor
COD
CMOD
Biaxiality Factor
Modified Compact Tension Test
Fracture Mechanics of Concrete
author_facet S. Seitl
V. Viszlay
author_sort S. Seitl
title Modified compact tension specimen for experiments on cement based materials: comparison of calibration curves from 2D and 3D numerical solutions
title_short Modified compact tension specimen for experiments on cement based materials: comparison of calibration curves from 2D and 3D numerical solutions
title_full Modified compact tension specimen for experiments on cement based materials: comparison of calibration curves from 2D and 3D numerical solutions
title_fullStr Modified compact tension specimen for experiments on cement based materials: comparison of calibration curves from 2D and 3D numerical solutions
title_full_unstemmed Modified compact tension specimen for experiments on cement based materials: comparison of calibration curves from 2D and 3D numerical solutions
title_sort modified compact tension specimen for experiments on cement based materials: comparison of calibration curves from 2d and 3d numerical solutions
publisher Gruppo Italiano Frattura
series Frattura ed Integrità Strutturale
issn 1971-8993
publishDate 2016-12-01
description The evaluation of fracture mechanics parameters of materials has become very important part of considering the condition of older constructions as well as properties of newly developed materials. This contribution focuses on a numerical simulation and a calculation of fracture mechanical properties of modified compact tension test configuration. It is possible to prepare the specimens used for this test very easily from a drilled core or from specimens used for cylindrical compression test. The focus of contribution is to compare selected outputs from numerical solution of 2D (plane strain conditions) with 3D models. Particularly, the determination of the influence of 2D and 3D model on the calibration curves for selected fracture mechanics parameters is of interest. Finite element software ANSYS was used for the numerical analysis.
topic Stress Intensity Factor
COD
CMOD
Biaxiality Factor
Modified Compact Tension Test
Fracture Mechanics of Concrete
url https://www.fracturae.com/index.php/fis/article/view/1826
work_keys_str_mv AT sseitl modifiedcompacttensionspecimenforexperimentsoncementbasedmaterialscomparisonofcalibrationcurvesfrom2dand3dnumericalsolutions
AT vviszlay modifiedcompacttensionspecimenforexperimentsoncementbasedmaterialscomparisonofcalibrationcurvesfrom2dand3dnumericalsolutions
_version_ 1724320698205208576

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