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Structural performance of RC columns retrofitted with steel-reinforced grout jackets under combined axial and lateral loading
Research highlights Experimental investigation of full-scale SRG jacketed columns under seismic loading. Alternative SRG jackets were used differing in textile density and number of layers. SRG jacketing modified poor columns response from brittle bar buckling to flexural. Sufficient displacement ductility & low strength degradation observed up to 5% drift.
Abstract The effectiveness of steel-reinforced grout (SRG) jacketing in improving the structural performance of deficient reinforced concrete (RC) columns is experimentally investigated in this study. Four full-scale cantilever columns were designed following the old construction practice (pre-1970s) in southern Europe. Due to lack of adequate seismic detailing, the columns were susceptible to buckling failure when subjected to combined axial loading and cyclic lateral displacement reversals, simulating seismic loading. Three alternative SRG jacketing configurations were applied differing in the number of layers and density of the Ultra High Tensile Strength Steel (UHTSS) textile. The test results demonstrated the efficiency of SRG jacketing to modify the response of the columns with poor detailing from brittle to ductile by substantially improving their overall structural performance. Finally, code formulations were used to assess the performance of the SRG jacketed columns.
Structural performance of RC columns retrofitted with steel-reinforced grout jackets under combined axial and lateral loading
Research highlights Experimental investigation of full-scale SRG jacketed columns under seismic loading. Alternative SRG jackets were used differing in textile density and number of layers. SRG jacketing modified poor columns response from brittle bar buckling to flexural. Sufficient displacement ductility & low strength degradation observed up to 5% drift.
Abstract The effectiveness of steel-reinforced grout (SRG) jacketing in improving the structural performance of deficient reinforced concrete (RC) columns is experimentally investigated in this study. Four full-scale cantilever columns were designed following the old construction practice (pre-1970s) in southern Europe. Due to lack of adequate seismic detailing, the columns were susceptible to buckling failure when subjected to combined axial loading and cyclic lateral displacement reversals, simulating seismic loading. Three alternative SRG jacketing configurations were applied differing in the number of layers and density of the Ultra High Tensile Strength Steel (UHTSS) textile. The test results demonstrated the efficiency of SRG jacketing to modify the response of the columns with poor detailing from brittle to ductile by substantially improving their overall structural performance. Finally, code formulations were used to assess the performance of the SRG jacketed columns.
Structural performance of RC columns retrofitted with steel-reinforced grout jackets under combined axial and lateral loading
Thermou, G.E. (author) / Papanikolaou, V.K. (author) / Hajirasouliha, I. (author)
Engineering Structures ; 245
2021-07-27
Article (Journal)
Electronic Resource
English
Concrete , Columns , Strengthening , Retrofitting , Jackets , Ductility , Buckling , SRG , FRCM
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