Experimental assessment and numerical modeling of the nonlinear behavior of the masonry shear walls under in-plane cyclic loading considering the brickwork-setting effect
In this article, the main purpose is nonlinear analysis of the cyclic behavior of the masonry shear walls including brickwork setting using finite element method. Three different brickwork-settings including running bond style, herringbone style and Zarbi style (herreh style) were investigated. To t...
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Iranian Society of Structrual Engineering (ISSE)
2017-08-01
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| Series: | Journal of Structural and Construction Engineering |
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doaj-9963b2a2e4a34c918fcbd63b12ef3d2f2020-11-24T22:39:33ZfasIranian Society of Structrual Engineering (ISSE)Journal of Structural and Construction Engineering2476-39772538-26162017-08-0142193210.22065/jsce.2016.4133941339Experimental assessment and numerical modeling of the nonlinear behavior of the masonry shear walls under in-plane cyclic loading considering the brickwork-setting effectAmir Hossein Karimi0Mohammad Saeed Karimi1Ali Kheyroddin2Abdulazim Amirshahkarami3PhD of Civil Engineering, Faculty of Civil Engineering, Semnan University, Semnan, IranAssistant Professor, Faculty of Civil Engineering, Semnan University, Semnan, IranProfessor, Faculty of Civil Engineering, Semnan University, Semnan, IranAssistant Professor, Department of Civil & Environmental Engineering, Amirkabir University of Technology, Tehran, IranIn this article, the main purpose is nonlinear analysis of the cyclic behavior of the masonry shear walls including brickwork setting using finite element method. Three different brickwork-settings including running bond style, herringbone style and Zarbi style (herreh style) were investigated. To this end, the walls (in dimension of 195×1500×1720 mm) were tested in the laboratory and then were simulated using macro modeling method by Abaqus software, and their hysteretic curves was drawn. The concrete damaged plasticity criteria in the Abaqus software is a model used in this research.In this method, the main failure mechanisms of fracture are cracking in tension and crushing in compression. The macro modeling method was used for numerical assessment of the masonry walls. After numerical modeling and drawing hysteretic curves and contrasting them with laboratory results, it was proven that the concrete damaged plasticity model, which is behavioral model for simulating concrete material, can be used for modeling masonry materials under seismic loading. However, this model cannot be used to simulate pinching effect in hysteretic curve drawn from seismic loading. The envelope curve resulted from the numerical analysis of all three brickwork layouts had a good agreement with the results of the laboratory tests, but in Hysteretic curve of Herringbone style and Zarbi style the pinching effect did not match experimental resultshttp://www.jsce.ir/article_41339_8fa5d8d44a52d3e2cb3411d8a9e7ecdb.pdfMasonryMasonry shear wallBrickwork settingcyclic loadingHysteretic curvenumerical modelingBrick |
| collection |
DOAJ |
| language |
fas |
| format |
Article |
| sources |
DOAJ |
| author |
Amir Hossein Karimi Mohammad Saeed Karimi Ali Kheyroddin Abdulazim Amirshahkarami |
| spellingShingle |
Amir Hossein Karimi Mohammad Saeed Karimi Ali Kheyroddin Abdulazim Amirshahkarami Experimental assessment and numerical modeling of the nonlinear behavior of the masonry shear walls under in-plane cyclic loading considering the brickwork-setting effect Journal of Structural and Construction Engineering Masonry Masonry shear wall Brickwork setting cyclic loading Hysteretic curve numerical modeling Brick |
| author_facet |
Amir Hossein Karimi Mohammad Saeed Karimi Ali Kheyroddin Abdulazim Amirshahkarami |
| author_sort |
Amir Hossein Karimi |
| title |
Experimental assessment and numerical modeling of the nonlinear behavior of the masonry shear walls under in-plane cyclic loading considering the brickwork-setting effect |
| title_short |
Experimental assessment and numerical modeling of the nonlinear behavior of the masonry shear walls under in-plane cyclic loading considering the brickwork-setting effect |
| title_full |
Experimental assessment and numerical modeling of the nonlinear behavior of the masonry shear walls under in-plane cyclic loading considering the brickwork-setting effect |
| title_fullStr |
Experimental assessment and numerical modeling of the nonlinear behavior of the masonry shear walls under in-plane cyclic loading considering the brickwork-setting effect |
| title_full_unstemmed |
Experimental assessment and numerical modeling of the nonlinear behavior of the masonry shear walls under in-plane cyclic loading considering the brickwork-setting effect |
| title_sort |
experimental assessment and numerical modeling of the nonlinear behavior of the masonry shear walls under in-plane cyclic loading considering the brickwork-setting effect |
| publisher |
Iranian Society of Structrual Engineering (ISSE) |
| series |
Journal of Structural and Construction Engineering |
| issn |
2476-3977 2538-2616 |
| publishDate |
2017-08-01 |
| description |
In this article, the main purpose is nonlinear analysis of the cyclic behavior of the masonry shear walls including brickwork setting using finite element method. Three different brickwork-settings including running bond style, herringbone style and Zarbi style (herreh style) were investigated. To this end, the walls (in dimension of 195×1500×1720 mm) were tested in the laboratory and then were simulated using macro modeling method by Abaqus software, and their hysteretic curves was drawn. The concrete damaged plasticity criteria in the Abaqus software is a model used in this research.In this method, the main failure mechanisms of fracture are cracking in tension and crushing in compression. The macro modeling method was used for numerical assessment of the masonry walls. After numerical modeling and drawing hysteretic curves and contrasting them with laboratory results, it was proven that the concrete damaged plasticity model, which is behavioral model for simulating concrete material, can be used for modeling masonry materials under seismic loading. However, this model cannot be used to simulate pinching effect in hysteretic curve drawn from seismic loading. The envelope curve resulted from the numerical analysis of all three brickwork layouts had a good agreement with the results of the laboratory tests, but in Hysteretic curve of Herringbone style and Zarbi style the pinching effect did not match experimental results |
| topic |
Masonry Masonry shear wall Brickwork setting cyclic loading Hysteretic curve numerical modeling Brick |
| url |
http://www.jsce.ir/article_41339_8fa5d8d44a52d3e2cb3411d8a9e7ecdb.pdf |
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AT amirhosseinkarimi experimentalassessmentandnumericalmodelingofthenonlinearbehaviorofthemasonryshearwallsunderinplanecyclicloadingconsideringthebrickworksettingeffect AT mohammadsaeedkarimi experimentalassessmentandnumericalmodelingofthenonlinearbehaviorofthemasonryshearwallsunderinplanecyclicloadingconsideringthebrickworksettingeffect AT alikheyroddin experimentalassessmentandnumericalmodelingofthenonlinearbehaviorofthemasonryshearwallsunderinplanecyclicloadingconsideringthebrickworksettingeffect AT abdulazimamirshahkarami experimentalassessmentandnumericalmodelingofthenonlinearbehaviorofthemasonryshearwallsunderinplanecyclicloadingconsideringthebrickworksettingeffect |
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