钢管混凝土柱徐变稳定性分析

为了探讨混凝土徐变对钢管混凝土柱轴向荷载作用下长期稳定性的影响，基于能量法和按照龄期调整的有效模量法，应用失稳准则，推导了考虑徐变和屈曲前变形的两端铰接、一端固定一端铰接和悬臂柱3种边界条件下的钢管混凝土柱长期稳定临界力计算公式，研究了该类柱徐变稳定临界力与核心混凝土强度的影响规律，并将规范取值与该临界力进行了对比. 研究结果表明:考虑徐变的钢管混凝土柱稳定临界力与徐变系数有关，相同计算长度但不同边界条件的该类柱徐变稳定临界力一致；核心混凝土强度的提高，会减小徐变对构件稳定临界力的影响；当按现行混凝土结构设计规范对核心混凝土强度等级低于C45的钢管混凝土柱进行设计时，应注意徐变失稳问题；钢管混凝土柱的徐变稳定承载力在前60 d下降明显且占总下降量约80%，在100 d后承载力逐渐趋于稳定. 

Creep Buckling Analysis of Concrete-Filled Steel Tubular Columns

In order to investigate the influence of concrete creep on the long-term stability of concrete-filled steel tubular (CFST) columns under axial load, based on the energy method and age-adjusted effective modulus method, the long-term stability equations for the critical force of CFST columns with different boundary conditions considering creep and pre-buckling deformation were deduced using an instability criterion. The influence of the critical force and strength of the core concrete were studied. In addition, the value of the current standard and critical loads were compared. The results show that the critical load for creep stability of CFST columns is related to the creep coefficient; CFST columns with the same calculated length but different boundary conditions have the same long-term critical load. The influence of creep on the stability of the column decreased with increasing core concrete strength. When designing CFST columns with low-strength concrete using the current code for the design of concrete structures, additional attention should be paid to the influence of creep buckling. The long-term stability of the critical forces of CFST column was reduced obviously reduced in the first 60 days, which accounts approximately for 80% of the total decline. The bearing capacity of the steel tube tends to be stabilize after 100 days.