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Finite Element Study of Single-Angle Connection under Tensile Loading

Roddis, W. M. Kim / Blass, Deborah

As a result of new research, building codes have been altered to include increase the robustness of structures against extreme loads. One newly implemented structural integrity provision for the 2009 International Building Code (IBC) includes the need to provide a minimum tensile capacity in simple shear connections. One of the most economical shear connections, a bolted single-angle, has been analytically modeled to determine its ability to meet the new code requirements.

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Finite Element Study of Single-Angle Connection under Tensile Loading

Roddis, W. M. Kim / Blass, Deborah

As a result of new research, building codes have been altered to include increase the robustness of structures against extreme loads. One newly implemented structural integrity provision for the 2009 International Building Code (IBC) includes the need to provide a minimum tensile capacity in simple shear connections. One of the most economical shear connections, a bolted single-angle, has been analytically modeled to determine its ability to meet the new code requirements.

Finite Element Study of Single-Angle Connection under Tensile Loading

Roddis, W. M. Kim / Blass, Deborah

As a result of new research, building codes have been altered to include increase the robustness of structures against extreme loads. One newly implemented structural integrity provision for the 2009 International Building Code (IBC) includes the need to provide a minimum tensile capacity in simple shear connections. One of the most economical shear connections, a bolted single-angle, has been analytically modeled to determine its ability to meet the new code requirements.

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Title:

Finite Element Study of Single-Angle Connection under Tensile Loading

Contributors:

Roddis, W. M. Kim (author) / Blass, Deborah (author)

Conference:

Structures Congress 2012 ; 2012 ; Chicago, Illinois, United States

Published in:

Structures Congress 2012 ; 1104-1110

Publication date:

2012-03-29

ISBN:

DOI:

https://doi.org/10.1061/9780784412367.098

Type of media:

Conference paper

Type of material:

Electronic Resource

Language:

English

Keywords:

Structural engineering , Seismic effects , Connections , Blasting , Bridges , Sustainable development , Finite element method , Nonstructural elements , Tensile loads , Standards and codes

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