Empirical Period-Height Relationship for reinforced Concrete Moment Resisting Buildings in India
[摘要] The fundamental period of vibration of buildings is the unique parameter that has a major influence on the earthquake induced lateral forces. Many design codes provide simple empirical period -height relationships for the determination of the fundamental period of vibration but using these equations time period and the resulted base shear are conservatively estimated. In most design cases the results obtained using conservative estimates formulae are largely deviating from the required engineering accuracy. Therefore a relationship is sought that will give accurate prediction of period of vibration for structural assessment of Indian reinforced concrete moment resisting frame buildings. On the basis of fundamental period of vibration of an Indian reinforced concrete moment resisting frame (RC MRF) building, obtained by finite element analysis, new equation has been proposed. In this study 21 existing reinforced concrete moment resisting frame buildings in India, with varying length, width and height are considered. The fundamental time periods of all the selected buildings were calculated using finite element method and IS 1893(Part 1) : 2002 based empirical formula. The comparison of proposed equation with Indian code shows that finite element analysis yielded 100 % higher periods as compared to the code approach.
[发布日期] [发布机构] Department of Civil Engineering, Vishwaniketan's Institute of Management Enterpreneurship and Engineeringn, Kumbhivali, Khalapur, Maharashtra; 410203, India^1;Department of Civil Engineering, Sardar Patel College of Engineering, Andheri (West), Mumbai, Maharashtra; 400058, India^2
[效力级别] [学科分类] 土木及结构工程学
[关键词] Accurate prediction;Empirical formulas;Existing reinforced concrete;Fundamental period;Lateral force;Moment resisting;Moment resisting frames;Structural assessments [时效性]