CFRP约束钢管-活性粉末混凝土短柱轴压性能

为研究圆碳纤维增强树脂复合材料(CFRP)约束钢管-活性粉末混凝土(RPC)短柱的轴压性能，以CFRP粘贴层数和钢管壁厚为参数进行了12根CFRP约束钢管-RPC短柱、4根钢管-RPC短柱及4根钢管短柱的轴压力学性能试验。通过荷载-位移曲线分析了CFRP层数和钢管壁厚对试件极限荷载和变形能力的影响，探讨了提高系数、CFRP应变效率和延性系数等相关性能指标，最后通过提高系数关联套箍率提出了CFRP约束钢管-RPC短柱承载力模型。结果表明:CFRP约束能有效地增强钢管-RPC短柱的承载能力和变形能力。与CFRP约束钢管-混凝土相比，CFRP约束钢管-RPC表现出CFRP应变效率的下降，并且其延性不如CFRP约束钢管-混凝土。在钢管-RPC承载力的基础上提出了实用的CFRP约束钢管-RPC短柱轴压承载力计算模型。 

Axial compression behaviour of CFRP confined reactive power concrete filled steel tube stub columns

The axial compression behaviour of circular carbon fiber reinforced polymer(CFRP) confined reactive powder concrete(RPC) filled steel tube stub columns was investigated. The mechanical tests of 12 CFRP confined steel tube-RPC stub columns, 4 steel tube-RPC stub columns and 4 steel tube stub columns were performed with the number of the CFRP layers and the steel tube thickness as parameters. The load-displacement curves were used to analyze the effects of the CFRP layer number and the steel tube thickness on the ultimate load and deformation capacity of the specimens. Subsequently, the performance indicators such as improvement coefficient, CFRP strain efficiency and ductility coefficient were discussed. Finally, a model of CFRP confined steel tube-RPC stub columns was proposed by increasing the coefficient associated confinement ratio. The experimental results indicate that the bearing capacity and deformation capacity of the CFRP confined steel tube-RPC stub columns are significantly improved by CFRP. In contrast to the CFRP confined concrete filled steel tube(CFRP confined steel tube-C), the CFRP confined steel tube-RPC exhibites a decrease in CFRP strain efficiency, and its ductility is worse than the CFRP confined steel tube-C. Based on the bearing capacity of steel tube-RPC, a practical model for calculating the bearing capacity of CFRP confined steel tube-RPC stub columns is proposed.