Seismic force demand on ductile reinforced concrete shear walls subjected to western North American ground motions: Part 2 - new capacity design methods. Boivin, Y. & Paultre, P. Canadian Journal of Civil Engineering, 39(7):738 - 750, 2012. Amplification effects;Cantilever walls;Capacity design;CSA standard A23.3;Seismic forces;
Seismic force demand on ductile reinforced concrete shear walls subjected to western North American ground motions: Part 2 - new capacity design methods [link]Paper  abstract   bibtex   
This paper proposes for the Canadian Standards Association (CSA) standard A23.3 new capacity design methods, accounting for higher mode amplification effects, for determining, for a single plastic hinge design, capacity design envelopes for flexural and shear strength design of regular ductile reinforced concrete cantilever walls used as seismic force resisting system for multistorey buildings. The derivation of these methods is based on the outcomes from a review on various capacity design methods proposed in the current literature and recommended by design codes and from the extensive parametric study presented in the companion paper. A discussion on the limitations of the proposed methods and on their applicability to various wall systems is presented.
@article{20122715215803 ,
language = {English},
copyright = {Compilation and indexing terms, Copyright 2023 Elsevier Inc.},
copyright = {Compendex},
title = {Seismic force demand on ductile reinforced concrete shear walls subjected to western North American ground motions: Part 2 - new capacity design methods},
journal = {Canadian Journal of Civil Engineering},
author = {Boivin, Yannick and Paultre, Patrick},
volume = {39},
number = {7},
year = {2012},
pages = {738 - 750},
issn = {03151468},
abstract = {This paper proposes for the Canadian Standards Association (CSA) standard A23.3 new capacity design methods, accounting for higher mode amplification effects, for determining, for a single plastic hinge design, capacity design envelopes for flexural and shear strength design of regular ductile reinforced concrete cantilever walls used as seismic force resisting system for multistorey buildings. The derivation of these methods is based on the outcomes from a review on various capacity design methods proposed in the current literature and recommended by design codes and from the extensive parametric study presented in the companion paper. A discussion on the limitations of the proposed methods and on their applicability to various wall systems is presented.<br/>},
key = {Reinforced concrete},
keywords = {Nanocantilevers;Seismology;Shear flow;Shear walls;Seismic design;Ductility;Office buildings;},
note = {Amplification effects;Cantilever walls;Capacity design;CSA standard A23.3;Seismic forces;},
URL = {http://dx.doi.org/10.1139/L2012-044},
}
Downloads: 0
About
Documentation
Keywords
Search
Users
Terms and Conditions of Use
Privacy Policy
Sitemap
© BibBase.org 2021