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工程力学 2015

双矩管装配式防屈曲支撑约束刚度取值研究

DOI: 10.6052/j.issn.1000-4750.2014.04.0322, PP. 22-32

郭彦林,姜子钦,王小安,黄彬

Keywords: 装配式防屈曲支撑,外围约束刚度,折减系数,分肢构件,连系刚度,高强螺栓

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Abstract:

装配式防屈曲支撑的外围约束构件之间通过高强螺栓连接,其连系螺栓的离散性布置对各外围约束构件形成的整体约束刚度有不利的影响,需要在外围构件约束刚度计算中考虑。该文对一种双矩管装配式防屈曲支撑的外围约束刚度取值进行了研究,在理论推导中首先假定外围约束构件为“空腹桁架模型”来考虑离散螺栓连接,而后运用“连续连杆法”将螺栓的离散作用连续化以便于考虑这种不利作用。通过研究“空腹桁架模型”的变形特性考虑外围约束构件约束刚度的折减,最后结合对外围构件受力机理的分析及数值手段,推导并拟合出约束构件分肢间连系刚度,进而完善了外围约束刚度取值的相关理论。提出的方法也得到了数值分析的验证。

References

[1]	郭彦林, 刘建彬, 蔡益燕, 等, 结构的耗能减震与防屈曲支撑[J]. 建筑结构, 2005, 35(8): 18―23. Guo Yanlin, Liu Jianbin, Cai Yiyan, et al. Structural energy dissipation and seismic mitigation method and buckling restrained brace [J]. Building Structure, 2005, 35(8): 18―23. (in Chinese)
[2]	Uang C M, Nakashima M, Tsai K C. Research and application of buckling-restrained braced frames [J]. International Journal of Steel Structures, 2004, 4(4): 301―313.
[3]	Inoue K, Sawaizum S I, Higashibata Y, Stiffening requirements for unbonded braces encased in concrete panels [J]. Journal of Structural Engineering, 2001, 127(6): 712―719.
[4]	Yukun D, Yaochun Z, Junxian Z, Tests of hysteretic behavior for unbonded steel plate brace encased in reinforced concrete panel [J]. Journal of Constructional Steel Research, 2009, 65(5): 1160―1170.
[5]	Nagao T, Mikuriya K, Matsumoto Y, et al. An experimental study on the elasto-plastic behavior of unbonded composite bracing (part 1-4). [C]. Tokyo, Japan: Summaries of Technical Papers of Annual Meeting of the Architectural Institute of Japan. Structural Engineering Section II, 1988: 1329―1336.
[6]	Koetaka Y, Narihara H, Tsujita O. Experimental study on buckling restrained braces [C]. China, Beijing: Proceeding of Sixth Pacific Structural Steel Conference, 2001: 15―17.
[7]	Black C J, Makris N, Aiken I D. Component testing, seismic evaluation and characterization of buckling-restrained braces [J]. Journal of Structural Engineering, 2004, 130(6): 880―894.
[8]	郭彦林, 江磊鑫. 型钢组合装配式防屈曲支撑性能及设计方法研究[J]. 建筑结构, 2010, 40(1): 30―37. Guo Yanlin, Jiang Leixin. Behavior and application of buckling-restrained braces assembled with section steels [J]. Building Structure, 2010, 40(1): 30―37. (in Chinese)
[9]	Zhao J, Wu B, Ou J, A novel type of angle steel buckling-restrained brace: Cyclic behavior and failure mechanism [J]. Earthquake Engineering & Structural Dynamics, 2011, 40(10): 1083―1102.
[10]	Chou C, Chen S, Subassemblage tests and finite element analyses of sandwiched buckling-restrained braces [J]. Engingering Structures, 2010, 32(8): 2108―2121.
[11]	Wang C L, Usami T, Funayama J, et al. Low-cycle fatigue testing of extruded aluminum alloy buckling-restrained braces [J]. Engineering Structures, 2013, 46(9): 294―301.
[12]	Usami T, Wang C L, Funayama J. Developing high-performance aluminum alloy buckling-restrained braces based on series of low-cycle fatigue tests [J]. Earthquake Engineering & Structural Dynamics, 2012, 41(4): 643―661.
[13]	Hoveidae N, Rafezy B. Overall buckling behavior of all-steel buckling restrained braces [J]. Journal of Constructional Steel Research, 2012, 79(12): 151―158.
[14]	郭彦林, 王小安. 一种双矩管对扣装配式防屈曲支撑构件[P]. 中国专利: 201020574017.5, 2010-10-15. Guo Yanlin, Wang Xiaoan. A double rectangular tube assembled buckling restrained brace [P]. 201020574017.5, 2010-10-15. (in Chinese)
[15]	郭彦林, 王小安. 一种四角钢组合约束型防屈曲支撑的外围约束机理及刚度取值研究[J]. 土木工程学报, 2012, 45(11): 79―87. Guo Yanlin, Wang Xiaoan. Study on restrain stiffness of a four-angle assembled steel buckling-restrained brace [J]. China Civil Engineering Journal, 2012, 45(11): 79―87. (in Chinese)
[16]	王小安, 郭彦林, 姜子钦, 等. 一种四槽钢组合约束型防屈曲支撑的外围约束机理与约束刚度取值研究[J]. 建筑钢结构进展, 2013, 15(3): 1―11. Wang Xiaoan, Guo Yanlin, Jiang Ziqin, et al. Study on Restraining Mechanism and Stiffness of a Four-Channel Assembled Steel Buckling-Restrained Brace [J]. Progress in Steel Building Structure, 2013, 15(3): 1―11. (in Chinese)
[17]	Inoue K, Sawaisumi S. Bracing design criterion of the reinforced concrete panel including unbonded steel diagonal braces [J]. Journal of Structural and Construction Engineering, 1992, 432(5): 41―49.
[18]	Nagao T, Takahashi S. A study on the elasto-plastic behavior of unbonded composite bracing (Part 2: analytical studies) [J]. Journal of Structural and Construction Engineering, Architectural Institute of Japan, 1991, 422(4): 45―56.
[19]	包世华. 新编高层建筑结构[M]. 北京: 中国水利水电出版社, 2005: 110―131. Bao Shihua. Tall building structures [M]. Beijing: China Water Power Press, 2005: 110―131. (in Chinese)
[20]	郭彦林, 王小安. 一种四角钢组合约束型防屈曲支撑的外围约束比取值研究[J]. 工程力学, 2013, 30(10): 35―45. Guo Yanlin, Wang Xiaoan. Study on the restrain ratio of a four-angle assembled steel buckling-restrained brace [J]. Engineering Mechanics, 2013, 30(10): 35―45. (in Chinese)
[21]	GB50017-2003, 钢结构设计规范[S]. 北京: 中国计划出版社, 2003. GB50017-2003, Code for design of steel structures [S]. Beijing: China Planning Press, 2003. (in Chinese)

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