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机构地区:[1]同济大学土木学院,上海200092 [2]南昌工程学院土建学院,江西南昌330099
出 处:《哈尔滨工程大学学报》2016年第2期182-186,共5页Journal of Harbin Engineering University
基 金:国家自然科学基金资助项目(50478108)
摘 要:为考虑节点刚度对钢管混凝土桁架中受压腹杆计算长度的影响,对圆钢管混凝土T/Y型节点在平面内弯矩作用下的抗弯刚度进行了数值研究,比较了空钢管节点和内填充混凝土钢管节点的抗弯刚度的差异,建立了钢管混凝土节点的抗弯刚度参数计算公式,给出了考虑节点刚度的受压腹杆的计算长度。研究表明:空钢管节点的弦杆内填充混凝土后,节点的抗弯刚度有明显的提高,节点刚度取决于弦杆的径向刚度和弦杆、腹杆相贯面的表面积;节点刚度随β、τ的增大而提高,随γ、θ的增大而降低;受压钢管腹杆的计算长度沿用《钢结构设计规范》可能偏于保守;对于上、下弦杆均为圆钢管混凝土杆件的桁架,受压腹杆的计算长度可近似的取0.7l。The effects of various factors on the joint rigidity of concrete-filled circular hollow section( CFCHS)joints were analyzed and compared with those of circular hollow section( CHS) joints. To determine the coefficient of the effective length of a compressed brace that is influenced by joint rigidity in a concrete-filled circular steel tube truss,T / Y CHS-CFCHS joint specimens with different geometry parameters under in-plane bending moment were investigated. The formula of the joint rigidity of CHS-CFCHS joints and the coefficient of the effective length of the compressed brace were established based on geometry parameters of the joints. Results show that the joint rigidity of CHS-CFCHS joints increase accordingly compared to CHS joints. Joint rigidity depends on the chord stiffness and brace-to-chord contact area; joint rigidity decreases as the value of γ or θ increases and increases as the value of β orτ increases. The computation length of the compressed brace may be conservative if the computation is performed according to the design code for steel structure; the effective length of the brace can be considered as 0.7l in the CHS-brace to CFCHS-chord truss.
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