A New Steel Jacketing Method for Concrete Cylinders and Comparison of the Results with a Constitutive Model Eunsoo Choi*/Man-Cheol Kim**
International Journal of Railway, vol. 1, no. 2, pp.72-81, 2008
Abstract : This paper introduces a new steel jacketing method for reinforced concrete columns with lap splice and evaluates its performance
by a series of axial tests of concrete cylinders. At first, 45 concrete cylinders were fabricated with varying the
design compressive strengths of 21, 27 and 35 MPa and, then, the part of them was jacketed with two-split-steel jackets
under lateral confining pressure. The parameters in the first test were the steel jacket¡¯s thickness and the existence of
adhesive between steel and concrete surface. In the second test, whole steel jackets were used to wrap cylinders with lateral
pressure. Also, a double-layer jacket consisted of two steel plates was introduced; a cylinder was jacketed by two
steel plates one after another. The effect of the new method was verified through comparing the results of the compressive
tests for plain and jacketed cylinders. The steel jacket built following the new method showed good results of
increasing the compressive strength and ductility of the jacketed cylinders with respect to the plain cylinders. The thicker
steel jackets showed the more increased compressive strength, and the ductility at failure depended on the welding quality
on steel jackets. The adhesive between steel and concrete surface reduced the confining effect of the steel jackets. The
whole jacket showed more ductile behavior than the two-split jackets. The double-layered jackets were estimated to possess
an equal performance to that of a single steel jacket having the same thickness of the double-layered jacket. Finally,
the experimental results were compared with the constitutive model of steel-jacketed concrete; which showed a good
agreement between the experimental results and the models
Keyword :
Steel Jacket, RC Columns, Grouting, Seismic Retrofit, External pressure
|