TY - JOUR
T1 - Sectional response of T-shaped RC walls
AU - Smyrou, Eleni
AU - Sullivan, Timothy
AU - Priestley, Nigel
AU - Calvi, Michele
PY - 2012/12/16
Y1 - 2012/12/16
N2 - Deformation quantities such as strain, curvature and displacement are of paramount importance in seismic design within a performance-based procedure that aims to control the structural response at predefined levels of inelastic action. Given the importance of curvature expressions independent of strength for the design process, and for the particular case of T-shaped walls, the curvature trends at yield, serviceability and ultimate limit state are determined in graphical and analytical form. The comprehensive set of equations proposed in this work are strength independent and allow the reliable computation of limit-state curvatures, essential in a displacement-based design approach, and thus the realistic estimation of appropriate ductility factors in the design of T-shaped walls. Furthermore, results regarding the section properties of T-shaped walls, such as the elastic stiffness and the moment capacity for opposite directions of loading, offer additional information on T-shaped walls.
AB - Deformation quantities such as strain, curvature and displacement are of paramount importance in seismic design within a performance-based procedure that aims to control the structural response at predefined levels of inelastic action. Given the importance of curvature expressions independent of strength for the design process, and for the particular case of T-shaped walls, the curvature trends at yield, serviceability and ultimate limit state are determined in graphical and analytical form. The comprehensive set of equations proposed in this work are strength independent and allow the reliable computation of limit-state curvatures, essential in a displacement-based design approach, and thus the realistic estimation of appropriate ductility factors in the design of T-shaped walls. Furthermore, results regarding the section properties of T-shaped walls, such as the elastic stiffness and the moment capacity for opposite directions of loading, offer additional information on T-shaped walls.
KW - displacement-based design
KW - ductility capacity
KW - limit-state curvatures
KW - sectional analysis
KW - bouwkunde
KW - aardbevingen
U2 - 10.1007/s10518-012-9407-2
DO - 10.1007/s10518-012-9407-2
M3 - Article
SN - 1570-761X
VL - 11
SP - 999
EP - 1019
JO - Bulletin of Earthquake Engineering
JF - Bulletin of Earthquake Engineering
IS - 4
ER -