This paper presents a theoretical and experimental analysis of socket base connections of precast concrete structures with regard to the behavior of transverse walls. The experimental program included seven specimens, for which the type of interface in contact with cast-in-place concrete, the load eccentricities and the embedded lengths were all varied. A design model was proposed to calculate the reinforcements of the transverse walls. Based on the obtained results, some conclusions can be drawn: (a) The top of the transverse wall on the compression side of the smooth connections and the top of the two transverse walls of the rough connections are submitted to a bending-tension and this tension prevails on the bending; (b) The design model proposed for the calculation of the reinforcement of the transverse wall on the compression side provides the best prediction of the experimental results for all specimens when compared to the current design models; (c) For rough interfaces, the top of the transverse wall on the tension side is more requested than the top of transverse wall on the compression side; (d) The results of the proposed design model for the reinforcement of the transverse wall on the tension side of rough connections were in close agreement with the experimental results.
[1]
Fumio Watanabe,et al.
Stress Transfer Mechanism of Socket Base Connectionswith Precast Concrete Columns
,
1996
.
[2]
A W Beeby,et al.
CONCISE EUROCODE FOR THE DESIGN OF CONCRETE BUILDINGS. BASED ON BSI PUBLICATION DD ENV 1992-1-1: 1992. EUROCODE 2: DESIGN OF CONCRETE STRUCTURES. PART 1: GENERAL RULES AND RULES FOR BUILDINGS
,
1993
.
[3]
Fritz Leonhardt,et al.
Vorlesungen über Massivbau
,
1973
.
[4]
M. K. El Debs,et al.
Design model for socket base connections adjusted from experimental results
,
2007
.
[5]
Rejane Martins Fernandes.
Reinforcement calculation for socket bases of precast concrete columns
,
2007
.
[6]
Kim S. Elliott,et al.
Multi-Storey Precast Concrete Framed Structures
,
1996
.