TY - GEN
T1 - Analytical model on the bond stress-slip relationship between steel reinforcement and concrete for RC beam-column joints
AU - Long, Xu
AU - Tan, Kang Hai
AU - Lee, Chi King
PY - 2013
Y1 - 2013
N2 - There are no conventionally accepted failure criteria for progressive collapse, and often times, deflection of affected beams over the "missing column" are often used as performance criteria. However, when simulating the deformation behaviour and the strength of reinforced concrete (RC) framed structures for progressive collapse analysis, besides the flexural deformations, the so-called "fixed end" rotation induced by the longitudinal bar slip at the beam-column ends connected to the joints can be significant and result in additional lateral deformations not accounted for in the initial analysis. Hence, it is important to quantify the deformations arising from fixed end rotations. Several bond stress-slip relationships between steel reinforcement and concrete were previously proposed in the literature. In the present work, their merits and demerits are discussed in terms of application limitation. To address the limitations of previous bond-slip models, a new analytical model based on the bond stress integration along the bar stress propagation length is proposed to predict the bar-slip behaviour in the RC beam-column joints. The proposed analytical model on the bond stress-slip relationship is validated against experimental studies from the literature and is shown to be simple and reliable.
AB - There are no conventionally accepted failure criteria for progressive collapse, and often times, deflection of affected beams over the "missing column" are often used as performance criteria. However, when simulating the deformation behaviour and the strength of reinforced concrete (RC) framed structures for progressive collapse analysis, besides the flexural deformations, the so-called "fixed end" rotation induced by the longitudinal bar slip at the beam-column ends connected to the joints can be significant and result in additional lateral deformations not accounted for in the initial analysis. Hence, it is important to quantify the deformations arising from fixed end rotations. Several bond stress-slip relationships between steel reinforcement and concrete were previously proposed in the literature. In the present work, their merits and demerits are discussed in terms of application limitation. To address the limitations of previous bond-slip models, a new analytical model based on the bond stress integration along the bar stress propagation length is proposed to predict the bar-slip behaviour in the RC beam-column joints. The proposed analytical model on the bond stress-slip relationship is validated against experimental studies from the literature and is shown to be simple and reliable.
KW - Analytical model
KW - Axial pullout
KW - Bar stress propagation length
KW - Bond stress-slip relationship
KW - RC beam-column joint
UR - http://www.scopus.com/inward/record.url?scp=84873479863&partnerID=8YFLogxK
U2 - 10.4028/www.scientific.net/AMM.275-277.1212
DO - 10.4028/www.scientific.net/AMM.275-277.1212
M3 - 会议稿件
AN - SCOPUS:84873479863
SN - 9783037855911
T3 - Applied Mechanics and Materials
SP - 1212
EP - 1218
BT - Applied Mechanics and Materials I
T2 - 2012 International Conference on Applied Mechanics and Materials, ICAMM 2012
Y2 - 24 November 2012 through 25 November 2012
ER -