Title:
Numerical Modeling of Joints Retrofitted with Haunch Retrofit Solution
Author(s):
Akanshu Sharma, R. Eligehausen, and J. Hofmann
Publication:
Structural Journal
Volume:
111
Issue:
4
Appears on pages(s):
861-872
Keywords:
beam-column joints; haunch retrofit solution; non-seismic detailing; numerical modeling; post-installed anchors; seismic performance
DOI:
10.14359/51686737
Date:
7/1/2014
Abstract:
Fully fastened haunch retrofit solution (FFHRS) has been proven to be an efficient and effective retrofitting technique to safeguard the beam-column joints by modifying the hierarchy of strength converting the undesirable joint shear failure mode to a desirable beam flexure failure mode. Experiments at joint subassemblies under cyclic loads, as well as frame structures under dynamic loads, have proven the efficacy of the system. In this paper, a numerical model to assess the inelastic seismic behavior of the joints retrofitted with FFHRS has been presented. The model gives due consideration to the inelastic behavior of the post-installed anchors used to connect the haunch elements to the members (beams and columns), along with the inelastic behavior of members and joint core. The assumptions and model parameters are discussed in detail, and the model is validated against experiments at the subassembly and frame level.