Title:
Equivalent Frame Analysis of Unbraced Concrete Frames
Author(s):
M. Daniel Vanderbilt
Publication:
Symposium Paper
Volume:
72
Issue:
Appears on pages(s):
219-246
Keywords:
beams (supports); columns (supports); connections;
deflection; frames; lateral pressure; mathematical models; multi-story
buildings; reinforced concrete; structural analysis.
DOI:
10.14359/6762
Date:
12/1/1981
Abstract:
A reinforced concrete building may be approximately analyzed as a series of crossing plane frames. The beam-column connections can be modeled using either the lateral-torsional member or equivalent beam width techniques. The lateral-torsion-almember definition and associated frame and member modeling rules which comprise the equivalent frame method of ACI 318-77 were calibrated against tests of real structures while methods of computing effective beam widths are based largely on theoretical analyses of elastic plates. Comparisons of the two methods in analyzing a test building for lateral loads are given. Both methods can be forced to produce computed deflections which agree favorably with test data. However, compatibility of lateral de-flections of separately analyzed parallel frames at the same floor level is not assured. Two methods for forcing compatibility of lateral deflections at each floor level of a building are described and shown to produce computed deflections which compare favorably with test data. Limitations of both equivalent frame and equivalent beam width methods are discussed.