Axial compressive behavior of circular UHPC filled high-strength steel tube (UFHST) short columns

Second International Interactive Symposium on UHPC Pub Date : 2019-06-02 DOI:10.21838/uhpc.9630

Jiangang Wei, Xia Luo, Z. Lai, Bao-chun Chen

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引用次数: 2

Abstract

: There is an increasing interest in using ultra-high performance concrete (UHPC) and high-strength steel in steel-concrete composite structures. This paper makes a contribution towards this by experimentally investigating the axial compressive behavior of circular UHPC filled high-strength steel tube (UFHST) short columns. A total of nine UFHST columns were tested under axial compression. The test parameter was the steel tube diameter-to-thickness ratio (13 to 32). The steel yield stress was 961 MPa (139.35 ksi), and the compressive strength of UHPC (without steel fibers) was 142 MPa (20.59 ksi). Results from the test indicated that the strength of the UFHST columns increased with decreasing steel tube diameter-to-thickness ratios. Two limit states were observed from the tests, i.e., shear failure of the concrete infill and local buckling of the steel tube. The governing limit states depend on the steel tube diameter-to-thickness ratio. Moreover, the strength enhancement and ductility of UFHST columns were discussed by using performance indices such as concrete contribution ratio (CCR), strength index (SI) and ductility index (DI). It was demonstrated that UFHST columns with thicker tube wall had better ductility, while leading to less strength enhancement or composite action.  (4) Here, The confinement factor ξ is the nominal strength ratio of steel tube to concrete infill; A s and A c are the cross-sectional areas of steel tube and concrete infill, respectively; f y and f c are the steel yielding stress and the cylinder concrete compressive strength, respectively; N u,filled represents the axial bearing capacity of UFHST columns; N u,hollow denotes the axial bearing capacity of hollow steel tubes measured in the test; 𝛿 u is the axial shortening at N u,filled ; 𝛿 95% is the axial shortening when the load falls to 95% N u,filled (95% N u,filled is used instead of 85% N u,filled , because the load drop after the peak load is less than 15% for some specimens in this paper, such

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圆形UHPC填充高强钢管短柱轴压特性研究

在钢-混凝土组合结构中使用超高性能混凝土(UHPC)和高强度钢的兴趣越来越大。本文通过对圆形超高强度混凝土填充高强钢管(UFHST)短柱轴压特性的试验研究，对此做出了贡献。共对9根UFHST柱进行了轴压试验。试验参数为钢管径厚比(13 ~ 32)。钢的屈服应力为961 MPa (139.35 ksi)，不含钢纤维的UHPC的抗压强度为142 MPa (20.59 ksi)。试验结果表明，随着钢管径厚比的减小，UFHST柱的强度增大。试验观察到两种极限状态，即混凝土充填体的剪切破坏和钢管的局部屈曲。控制极限状态取决于钢管的径厚比。采用混凝土贡献率(CCR)、强度指数(SI)和延性指数(DI)等性能指标对UFHST柱的强度增强和延性进行了探讨。结果表明，管壁较厚的UFHST柱延性较好，但强度增强或复合作用较小。(4)式中，约束系数ξ为钢管与混凝土填充物的标称强度比;A s、A c分别为钢管截面面积和混凝土填充截面面积;F、F分别为钢屈服应力和柱状混凝土抗压强度;N u，填充为UFHST柱轴向承载力;N u，空心为试验所测空心钢管的轴向承载力;𝛿u为N u处轴向缩短量，填充;𝛿95%为荷载降至95% N u时的轴向缩短量，填充(95% N u，填充代替85% N u，填充，由于本文部分试件峰值荷载后的荷载下降小于15%，故采用95% N u，填充

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Second International Interactive Symposium on UHPC

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