Title of article
Towards improved modeling of steel-concrete composite wall elements
Author/Authors
Vecchio، نويسنده , , Frank J. and McQuade، نويسنده , , Ian، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2011
Pages
14
From page
2629
To page
2642
Abstract
The Disturbed Stress Field Model, a smeared rotating crack model for reinforced concrete based on the Modified Compression Field Theory, is adapted to the analysis of double-skin steel-concrete wall elements. The computational model is then incorporated into a two-dimensional nonlinear finite element analysis algorithm. Verification studies are undertaken by modeling various test specimens, including panel elements subject to uniaxial compression, panel elements subjected to in-plane shear, and wall specimens subjected to reversed cyclic lateral displacements. In all cases, the analysis model is found to provide accurate calculations of structural load capacities, pre- and post-peak displacement responses, post-peak ductility, chronology of damage, and ultimate failure mode. Minor deficiencies are found in regards to the accurate portrayal of faceplate buckling and the effects of interfacial slip between the faceplates and the concrete. Other aspects of the modeling procedure that are in need of further research and development are also identified and discussed.
Journal title
Nuclear Engineering and Design Eslah
Serial Year
2011
Journal title
Nuclear Engineering and Design Eslah
Record number
1591028
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