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Title: Behavior of Joints Using Reinforced Fibrous Concrete

Author(s): R. John Craig, Sitaram Mahadev, C.C. Patel, Manuel Viteri, and Czaba Kertesz

Publication: Symposium Paper

Volume: 81

Issue:

Appears on pages(s): 125-168

Keywords: beams (supports); columns (supports); cyclic loads; ductility; earthquake resistant structures; earthquakes, fiber reinforced concretes; joints (junctions); loads (forces);metal . fibers, reinforced concrete, reinforcing steels, stirrups.

DOI: 10.14359/6448

Date: 11/1/1984

Abstract:
From exploratory research of reinforced fibrous concrete, it has been shown that fibrous concrete is potentially superior and less costly than the conventional reinforced concrete. The testing program consisted of ten beam column joints with half of these joints containing 1.5 percent by volume of concrete of steel hooked end fibers. The beam column joints were constructed with less hoops than a conventional seismic joint would have, ac-cording to design specifications of the American Concrete Institute code ACI 318-77). In studying the behavior of these beam column joints, two failure conditions were found: 1) critical regions whose inelastic behavior is controlled by bending, and 2) critical regions whose inelastic behavior is controlled by high shear existing in the region. The results of the testing will be described. From the analysis of the results, it can safely be concluded that the hooked end steel fibers in the joint region provided: 1) better bond; 2) better confinement of the concrete; 3) a stiffer member; 4) higher moment capacity; 5) higher shear strength; 6) more ductility; and 7) significant improvement in the energy dissipation capacity than did the plain concrete joint.