This paper evaluates the stability bounds of the force reduction factor R of unidirectionally loaded UBC designed asymmetric one-storey systems having different mass and stiffness distributions. It is shown that whereas the instability effects due to torsional response are neutralized by the asymmetry-related over-strength, instability bounds may still be lower than the R-values prescribed by the code. Results of a limited study indicate that bidirectional ground motion tends to reduce further the safety margin against dynamic instability
Seismic stability and the force reduction factor of code-designed one storey asymmetric structures / M. DE STEFANO; A. RUTENBERG. - STAMPA. - (1999), pp. 785-803.
Seismic stability and the force reduction factor of code-designed one storey asymmetric structures
DE STEFANO, MARIO;
1999
Abstract
This paper evaluates the stability bounds of the force reduction factor R of unidirectionally loaded UBC designed asymmetric one-storey systems having different mass and stiffness distributions. It is shown that whereas the instability effects due to torsional response are neutralized by the asymmetry-related over-strength, instability bounds may still be lower than the R-values prescribed by the code. Results of a limited study indicate that bidirectional ground motion tends to reduce further the safety margin against dynamic instability
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