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In-Plane Creep Buckling of Concrete-Filled Steel Tubular Arches

In-Plane Creep Buckling of Concrete-Filled Steel Tubular Arches
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摘要 The creep-induced deformation of the arch rib of concrete-filled steel tubular (CFST) arches under a sustained load can increase the bending moment, which may lead to earlier stability failure called creep buckling. To investigate the influences of concrete creep on the buckling strength of arches, a theoretical analysis for the creep buckling of CFST circular arches under distributed radial load is performed. The simplified Arutyunyan-Maslov (AM) creep law is used to model the creep behavior of concrete core, and the creep integral operator is introduced. The analytical solutions of the time-dependent buckling strength under the sustained load are achieved and compared with the existing formula based on the age-adjusted effective modulus method (AEMM). Then the solutions are used to determine the influences of the steel ratio and the first loading age on the creep buckling of CFST arches. The results show that the analytical solutions are of good accuracy and applicability. For CFST arches, the steel ratio and the first loading age have significant influences on creep buckling. An approximate log-linear relationship between the decreased degrees of the creep buckling strength and the first loading age is found. For the commonly used parameters, the maximum loss of the buckling strength induced bv concrete creen is close to 40% The creep-induced deformation of the arch rib of concrete-filled steel tubular(CFST) arches under a sustained load can increase the bending moment, which may lead to earlier stability failure called creep buckling. To investigate the influences of concrete creep on the buckling strength of arches, a theoretical analysis for the creep buckling of CFST circular arches under distributed radial load is performed. The simplified Arutyunyan-Maslov(AM)creep law is used to model the creep behavior of concrete core, and the creep integral operator is introduced. The analytical solutions of the time-dependent buckling strength under the sustained load are achieved and compared with the existing formula based on the age-adjusted effective modulus method(AEMM). Then the solutions are used to determine the influences of the steel ratio and the first loading age on the creep buckling of CFST arches. The results show that the analytical solutions are of good accuracy and applicability. For CFST arches, the steel ratio and the first loading age have significant influences on creep buckling. An approximate log-linear relationship between the decreased degrees of the creep buckling strength and the first loading age is found. For the commonly used parameters, the maximum loss of the buckling strength induced by concrete creep is close to 40%.
作者 蒋伟 吕大刚
出处 《Transactions of Tianjin University》 EI CAS 2014年第3期168-173,共6页 天津大学学报(英文版)
基金 Supported by the National Natural Science Foundation of China(No.51378162,No.51178150) the National Key Technology Research and Development Program of the Ministry of Science and Technology of China(No2013BAJ08B01)
关键词 ARCH concrete-filled steel tubular(CFST) concrete creep BUCKLING Arutyunyan-Maslov (AM)creeplaw steel ratio first-loading age 钢管混凝土拱 蠕变屈曲 屈曲强度 平面 混凝土徐变 有效模量法 混凝土管 载荷作用
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