Title:
Prediction of Shear Strength of Reinforced Concrete
Beams without Web Reinforcement
Author(s):
Jin-Keun Kim and Yon-Dong Park
Publication:
Materials Journal
Volume:
93
Issue:
3
Appears on pages(s):
213-222
Keywords:
aggregate interlock; beams; dowel action; failure mode; shear
strength; size effect.
DOI:
10.14359/9805
Date:
5/1/1996
Abstract:
A rational and mechanics-based equation is proposed for the prediction of shear strength of reinforced concrete beams without web reinforcement. This prediction is based on basic shear transfer mechanisms, a modified Bazant’s size effect law, and numerous published experimental data, including high-strength concrete beams with compressive strengths of concrete up to 100 MPa (14,500 psi). Comparisons with experimental data indicate that the proposed equation estimates properly the effects of primary factors, such as concrete strength, longitudinal steel ratio, shear span-to-depth ratio, and effective depth. It is shown that the proposed equation is considered to be better than the other equations compared in this study with respect to accuracy and estimation of primary factors. A simplified design equation is also derived within the limited range of effective depth for practical purposes.