Angle bracket connections for CLT structures: Experimental characterization and numerical modelling

•The coupled axial-shear behavior of angle bracket is considered in the formulation.•An experimental campaign was specifically designed on CLT panel-AB connections.•Monotonic and cyclic behavior of CLT panel-AB connections system are simulated.•Degradation phenomena due to cyclic loading are conside...

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Veröffentlicht in:	Construction & building materials 2018-12, Vol.191, p.95-113
Hauptverfasser:	Pozza, Luca, Saetta, Anna, Savoia, Marco, Talledo, Diego
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Angle bracket connection Axial-shear interaction CLT panels Computer simulation Coupled numerical model Hysteretic law Strength (Materials) Timber connectors
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container_title	Construction & building materials
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creator	Pozza, Luca Saetta, Anna Savoia, Marco Talledo, Diego
description	•The coupled axial-shear behavior of angle bracket is considered in the formulation.•An experimental campaign was specifically designed on CLT panel-AB connections.•Monotonic and cyclic behavior of CLT panel-AB connections system are simulated.•Degradation phenomena due to cyclic loading are considered. This paper presents an enhanced coupled axial-shear model for the monotonic and cyclic behavior of Cross Laminated Timber (CLT) panel – angle bracket connections. The proposed model accounts for the degradation phenomena due to cyclic loading that may affect strength, unloading and re-loading stiffnesses. The main parameters necessary to define the constitutive laws of the model are evaluated by linear regression analyses performed on the data obtained by an extensive experimental campaign specifically designed and carried out at the University of Bologna on CLT panel – angle bracket connections. After the first phase of model calibration, a comparison between numerical and experimental results from both monotonic and cyclic test series are performed to validate the model. These analyses demonstrate the effectiveness of the proposed model in representing the coupled response of angle bracket connections under simultaneous application of axial and shear forces.
doi_str_mv	10.1016/j.conbuildmat.2018.09.112
format	Article
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This paper presents an enhanced coupled axial-shear model for the monotonic and cyclic behavior of Cross Laminated Timber (CLT) panel – angle bracket connections. The proposed model accounts for the degradation phenomena due to cyclic loading that may affect strength, unloading and re-loading stiffnesses. The main parameters necessary to define the constitutive laws of the model are evaluated by linear regression analyses performed on the data obtained by an extensive experimental campaign specifically designed and carried out at the University of Bologna on CLT panel – angle bracket connections. After the first phase of model calibration, a comparison between numerical and experimental results from both monotonic and cyclic test series are performed to validate the model. 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These analyses demonstrate the effectiveness of the proposed model in representing the coupled response of angle bracket connections under simultaneous application of axial and shear forces.</description><subject>Analysis</subject><subject>Angle bracket connection</subject><subject>Axial-shear interaction</subject><subject>CLT panels</subject><subject>Computer simulation</subject><subject>Coupled numerical model</subject><subject>Hysteretic law</subject><subject>Strength (Materials)</subject><subject>Timber connectors</subject><issn>0950-0618</issn><issn>1879-0526</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2018</creationdate><recordtype>article</recordtype><sourceid>N95</sourceid><recordid>eNqNkUFr3DAQhUVpoNuk_0Gl19qVZFsr9bYsaRNY6CU9C1kaO9racpDk0vbXd5btIYE9FMGMGL3vIeYR8p6zmjMuPx1rt8R-DZOfbakF46pmuuZcvCIbrra6Yp2Qr8mG6Y5VTHL1hrzN-cgYk0KKDXG7OE5A-2TdDygUzSK4EpaY6bAkuj880FzS6sqaIH-mt7-eIIUZYrETdY8WsYKDP_aEUBs9jeuMA4fP8-JhmkIcb8jVYKcM7_71a_L9y-3D_q46fPt6v98dKtfKplRaKuddIzQbsPVCeAVaybaTotV47QVvsVqumQCuJHgNrd_6wTFhO6aaa_Lh7DvaCUyIw1Lwf3PIzuw6qRvFt6pBVXVBNUKEZKclwhBw_EJfX9Dj8TAHdxH4-Azo1xwiZCw5jI8lj3bN-aVcn-UuLTknGMwTbtim34Yzc8rYHM2zjM0pY8O0wYyR3Z9ZwLX-DJBMdgGiAx8Sxmj8Ev7D5S-zMbZV</recordid><startdate>20181210</startdate><enddate>20181210</enddate><creator>Pozza, Luca</creator><creator>Saetta, Anna</creator><creator>Savoia, Marco</creator><creator>Talledo, Diego</creator><general>Elsevier Ltd</general><general>Reed Business Information, Inc. 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This paper presents an enhanced coupled axial-shear model for the monotonic and cyclic behavior of Cross Laminated Timber (CLT) panel – angle bracket connections. The proposed model accounts for the degradation phenomena due to cyclic loading that may affect strength, unloading and re-loading stiffnesses. The main parameters necessary to define the constitutive laws of the model are evaluated by linear regression analyses performed on the data obtained by an extensive experimental campaign specifically designed and carried out at the University of Bologna on CLT panel – angle bracket connections. After the first phase of model calibration, a comparison between numerical and experimental results from both monotonic and cyclic test series are performed to validate the model. 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subjects	Analysis Angle bracket connection Axial-shear interaction CLT panels Computer simulation Coupled numerical model Hysteretic law Strength (Materials) Timber connectors
title	Angle bracket connections for CLT structures: Experimental characterization and numerical modelling
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