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http://dx.doi.org/10.4334/JKCI.2003.15.4.513

Flexural-Shear Behavior of Beam Members according to the Spacing of Stirrups and Tension Steel Ratio  

Park, Hoon-Gyu (Korea Construction Quality Research Center)
An, Young-Ki (Korea Construction Quality Research Center)
Jang, Il-Young (Dept. of Civil Engineering, Kumoh National University of Tech)
Choi, Goh-Il (Korea Highway Corporation)
Publication Information
Journal of the Korea Concrete Institute / v.15, no.4, 2003 , pp. 513-521 More about this Journal
Abstract
Existing tests results have shown that confining the concrete compression region with closed stirrups improves the ductility and load-carrying capacity of beams. However, only few researchers have attempted to utilize the beneficial effects of the presence of these stirrups in design. This paper presents the result of experimental studies on the load-deflection behavior and the strengthening effect of laterally confined structural high-strength concrete beam members in which confinement stirrups have been introduced into the compression regions. Fifteen tests were conducted on full-scale beam specimens having concrete compressive strength of 41 MPa and 61 MPa. Different spacing of stirrups(0.25∼1.0d) and amount of tension steel($0.55{\sim}0.7{\rho}_b$) as major variables were investigated. And also, this study present an appropriate shear equation for decision of ultimate failure modes of high-strength concrete beams according to stirrup spacing. The equation is based on interaction between shear strength and displacement ductility. Prediction of failure mode from presented method and comparison with test results are also presenteded
Keywords
reinforced concrete; high-strength concrete; load; deflection; beam; spacing of stirrup; failure mode; shear;
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