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型钢-钢管混凝土轴压柱核心混凝土应力-应变关系 被引量:7

Stress-strain relation of core concrete of aixally-loaded steel tubular columns filled with steel-reinforced concrete
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摘要 对型钢-钢管混凝土轴压柱核心混凝土的受力特征进行分析;借鉴典型的约束混凝土本构关系,提出核心混凝土等效单轴受压应力-应变关系模型,该模型考虑了型钢翼缘对核心混凝土约束效应的贡献。利用所建立的核心混凝土应力-应变关系模型,采用数值方法对型钢-钢管混凝土轴压组合柱的荷载-变形关系进行分析。研究结果表明:核心混凝土内部存在双重约束区域,其力学性能与钢管混凝土柱中的核心混凝土存在差异;数值计算结果与试验结果较吻合,表明所提出的核心混凝土应力-应变关系模型能较准确地描述型钢-钢管混凝土轴压柱的受力过程、变形特征和承载能力等基本力学性能。 The working mechanism and stress characters of core concrete of aixally-loaded steel tubular columns filled with steel-reinforced concrete were investigated. Based on the typical constitutive models of confined concrete, stress-strain relationship describing the equivalent single-axis compressive stress of the core concrete was put forward by considering the confining contribution of steel flanges. Moreover, full-range load-deformation relationship for the composite columns under axial load was calculated by using the proposed constitutive relationship. The results show that the mechanics performance of the core concrete is different from that of concrete-filled steel tubular column, due to the inner double confined area of core concrete of the composite columns. The calculated results and the experimental ones are in agreement well, which shows the proposed stress-strain relationship of core concrete is feasible in the evaluation of ultimate strength and deformation of aixally-loaded steel tubular columns filled with steel-reinforced concrete.
出处 《中南大学学报(自然科学版)》 EI CAS CSCD 北大核心 2010年第1期341-346,共6页 Journal of Central South University:Science and Technology
基金 湖南省科技计划项目(2008GK312) 湖南省杰出青年基金资助项目(05JJ10009)
关键词 组合柱 核心混凝土 应力 应变 受力特征 数值分析 composite column core concrete stress strain mechanics characteristic numerical analysis
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参考文献11

  • 1王清湘,赵大洲,关萍.钢骨-钢管高强混凝土轴压组合柱受力性能的试验研究[J].建筑结构学报,2003,24(6):44-49. 被引量:67
  • 2HE Yi-bin, XIAO A-lin. Limit analysis of steel tubular columns filled with structural steel[C]//Proceedings of the 8th International Conference on Steel-Con Crete Composite and Hybrid Structures (Special Issue of Steel Construction). Harbin, China, 2006: 544-550.
  • 3Sakino K, Hayashi H. Behavior of concrete filled steel tubular stub columns under concentric loading[C]//Proceedings of the Third International Conference on Steel-Concrete Composite Structure. Fukuoka, Japan, 1991: 25-30.
  • 4Saenz L P. Discussion of 'Equation for the stress-strain curve of concrete' by P. Desayi, and S. Krishnan[J]. Journal of the American Concrete Institute, 1964, 61(7): 1229-1235.
  • 5Scott, Park R, Priestly N. Stress-strain behavior of concrete confined by overlapping hoops at low and high strain rates[J]. American Concrete Institute Structure Journal, 1982, 79(1): 13-27.
  • 6Ottosen N S. Constitutive model for short-time loading of concrete[J]. Journal of Structural Engineering, ASCE, 1979, 105(1): 127-141.
  • 7Hu H T, Huang C S, Chen Z L. Finite element analysis of CFT columns subjected to an axial compressive force and bending moment in combination[J]. Journal of Constructional Steel Research, 2005, 61(5): 1692-1712.
  • 8Ellobody E, Young B, Lam D. Behaviour of normal and high strength concrete-filled compact steel tube circular stub columns[J]. Journal of Constructional Steel Research, 2006, 62(11): 706-715.
  • 9Hu H T, Huang C S, Wu M H, et al. Nonlinear analysis of axially loaded concrete-filled tube columns with confinement effect[J]. Journal of Structural Engineering, ASCE, 2003, 129(10): 1322-1329.
  • 10Mander J B, Priestley M J N, Park R. Theoretical stress-strain model for confined concrete[J]. Journal of Structural Engineering, ASCE, 1988, 114(8): 1804-1826.

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