不锈钢管约束混凝土短柱轴压性能试验
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摘要
为研究混凝土在不锈钢侧向约束下的受压力学性能,开展不锈钢圆管约束混凝土短柱的轴压试验研究.在试验中,设置素混凝土短柱和碳素钢管约束混凝土短柱作为对比,主要研究参数为加载边界条件和不锈钢管壁厚.试验结果表明:素混凝土短柱出现沿竖向劈裂破坏,破坏前变形较小;其余约束混凝土短柱均呈现较好的变形能力,破坏表现为钢管外屈及相应位置混凝土压溃破坏;在圆不锈钢管约束下,混凝土短柱的轴压承载力和变形能力均得到显著提升;不锈钢管混凝土短柱的初始刚度大于不锈钢约束混凝土短柱;随着不锈钢管壁厚的增大,约束混凝土短柱的轴压承载力近似呈线性增长;采用不锈钢管约束混凝土的承载力高于采用相近屈服强度的碳素钢管约束混凝土.
Axial compression tests were carried out on stainless steel tube confined concrete stub columns, to investigate the effect of lateral confinement of stainless steel tube on the axial compressive performance of concrete stub columns. The main test parameters included the loading boundary and wall thickness of stainless steel tube. The plain concrete stub column and concrete stub column confined with carbon steel tube were conducted for comparison. The test results show: the plain concrete stub column splits longitudinally with minor deformation; while all the confined concrete stub columns present ductile failure modes with outward local buckling of steel tube and crush of concrete inside; the load-carrying capacity and deformation capacity of concrete stub columns are significantly enhanced by the lateral confinement of stainless steel tubes;the initial stiffness of concrete-filled stainless steel tube is greater than the stiffness of stainless steel tube confined concrete;as wall thickness increases,the load-carrying capacity of the stainless steel tube confined concrete increases approximately linearly;the stainless steel tube confined concrete owns a higher strength than the carbon steel tube confined concrete.
Axial compression tests were carried out on stainless steel tube confined concrete stub columns, to investigate the effect of lateral confinement of stainless steel tube on the axial compressive performance of concrete stub columns. The main test parameters included the loading boundary and wall thickness of stainless steel tube. The plain concrete stub column and concrete stub column confined with carbon steel tube were conducted for comparison. The test results show: the plain concrete stub column splits longitudinally with minor deformation; while all the confined concrete stub columns present ductile failure modes with outward local buckling of steel tube and crush of concrete inside; the load-carrying capacity and deformation capacity of concrete stub columns are significantly enhanced by the lateral confinement of stainless steel tubes;the initial stiffness of concrete-filled stainless steel tube is greater than the stiffness of stainless steel tube confined concrete;as wall thickness increases,the load-carrying capacity of the stainless steel tube confined concrete increases approximately linearly;the stainless steel tube confined concrete owns a higher strength than the carbon steel tube confined concrete.
引文
[1] 韩林海.钢管混凝土结构:理论与实践[M].3版.北京:科学出版社,2016.
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[9] 赵秋红,张建周,李忠献.圆端形不锈钢管混凝土桥墩滞回性能有限元分析[J].建筑结构学报,2017,38(增刊1):435-443.
[10] LIAO Feiyu,HAN Linhai,TAO Zhong.Experimental behavior of concrete-filled stainless steel tubular columns under cyclic lateral loading[J].Journal of Structural Engineering,2017,143(4):04016219(1-15).DOI:10.1061/(ASCE)ST.1943-541X.0001705.
[11] YE Yong,HAN Linhai,SHEEHAN T,et al.Concrete-filled bimetallic tubes under axial compression:Experimental investigation[J].Thin-Walled Structures,2016,108:321-332.
[12] YE Yong,HAN Linhai,GUO Zixiong.Concrete-filled bimetallic tubes (CFBT) under axial compression:Analytical behaviour[J].Thin-Walled Structures,2017,119:839-850.
[13] YE Yong,ZHANG Shijiang,HAN Linhai,et al.Square concrete-filled stainless steel/carbon steel bimetallic tubular stub columns under axial compression[J].Journal of Constructional Steel Research,2018,146:49-62.DOI:10.1016/j.jcsr.2018.03.015.
[14] 郭浩,叶勇,高毅超,等.双金属复合管混凝土轴拉性能有限元分析[J].华侨大学学报(自然科学版),2019,40(1):41-47.DOI:10.11830/ISSN.1000-5013.201805019.
[15] 中华人民共和国住房和城乡建设部.钢管混凝土结构技术规范:GB 50936-2014[S].北京:中国建筑工业出版社,2014.
[2] GARDNER L,CRUISE R B,SOK C P,et al.Life cycle costing of metallic structures[J].Proceedings of the Institution of Civil Engineers-Engineering Sustainability,2007,160(4):167-177.
[3] CRAIG B,ESTHER R,LEROY G.Testing,simulation and design of cold-formed stainless steel CHS columns[J].Thin-Walled Structures,2018,130:297-312.DOI:10.1016/j.tws.2018.05.006.
[4] 廖飞宇.圆不锈钢管混凝土轴压力学性能的有限元分析[J].福建农林大学学报(自然科学版),2009,38(6):659-662.
[5] HAN Linhai,REN Qingxin,LI Wei.Tests on stub stainless steel concrete-carbon steel double-skin tubular (DST) columns[J].Journal of Constructional Steel Research,2011,67(3):437-452.DOI:10.1016/j.jcsr.2010.09.010.
[6] TAO Zhong,UY B,LIAO Feiyu,et al.Nonlinear analysis of concrete-filled square stainless steel stub columns under axial compression[J].Journal of Constructional Steel Research,2011,67(11):1719-1732.DOI:10.1016/j.jcsr.2011.04.012.
[7] UY B,TAO Zhong,HAN Linhai.Behaviour of short and slender concrete-filled stainless steel tubular columns[J].Journal of Constructional Steel Research,2011,67(3):360-378.DOI:10.1016/j.jcsr.2010.10.004.
[8] 陈誉,李凤霞,王江.热成型不锈钢圆管混凝土轴压短柱受力性能试验研究[J].建筑结构学报,2013,34(2):106-112.
[9] 赵秋红,张建周,李忠献.圆端形不锈钢管混凝土桥墩滞回性能有限元分析[J].建筑结构学报,2017,38(增刊1):435-443.
[10] LIAO Feiyu,HAN Linhai,TAO Zhong.Experimental behavior of concrete-filled stainless steel tubular columns under cyclic lateral loading[J].Journal of Structural Engineering,2017,143(4):04016219(1-15).DOI:10.1061/(ASCE)ST.1943-541X.0001705.
[11] YE Yong,HAN Linhai,SHEEHAN T,et al.Concrete-filled bimetallic tubes under axial compression:Experimental investigation[J].Thin-Walled Structures,2016,108:321-332.
[12] YE Yong,HAN Linhai,GUO Zixiong.Concrete-filled bimetallic tubes (CFBT) under axial compression:Analytical behaviour[J].Thin-Walled Structures,2017,119:839-850.
[13] YE Yong,ZHANG Shijiang,HAN Linhai,et al.Square concrete-filled stainless steel/carbon steel bimetallic tubular stub columns under axial compression[J].Journal of Constructional Steel Research,2018,146:49-62.DOI:10.1016/j.jcsr.2018.03.015.
[14] 郭浩,叶勇,高毅超,等.双金属复合管混凝土轴拉性能有限元分析[J].华侨大学学报(自然科学版),2019,40(1):41-47.DOI:10.11830/ISSN.1000-5013.201805019.
[15] 中华人民共和国住房和城乡建设部.钢管混凝土结构技术规范:GB 50936-2014[S].北京:中国建筑工业出版社,2014.
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