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工业建筑 2012

高强度钢材钢结构的工程应用及研究进展

DOI: 10.13204/j.gyjz201201001

施刚,班慧勇,石永久,王元清

Keywords: 高强度钢材,工程应用,研究进展,试验

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Abstract:

为研究高强度钢材钢结构的受力性能,了解国内外最新研究进展,促进该类新型绿色节能结构体系的更广泛应用,并为今后的相关研究提供参考和指导,对国内外高强度钢材钢结构的工程应用和最新的研究进展进行总结,特别是清华大学近期所做的一系列试验研究,包括高强度钢材的静力力学性能、韧性和循环荷载下的本构模型,构件截面的残余应力分布、受压钢柱的稳定性能和滞回性能、高强度钢材板件螺栓连接的延性和承载力,高强度钢材钢框架的抗震性能以及高强度钢材钢结构的相关有限元分析等内容。结果表明,高强度钢材钢结构在材料、构件和结构体系三个层面上都具有明显的优势,但现有的设计方法并不完全适用,需要发展新的设计理论和计算公式,以期更合理、安全地应用高强度钢材钢结构。

References

[1]	1 International Association for Bridge and Structural Engineering. Use and Application of High-Performance Steels for Steel Structures[M].Zurich:IABSE,2005.
[2]	2 Pocock G. High Strength Steel Use in Australia,Japan and the US[J].Structural Engineer,2006,(21):27-30.
[3]	3 Griffis G L,Axmann G,Patel B V. High-Strength Steel in the Long-Span Retractable Roof of Reliant Stadium[A].Baltimore,2003.1-9.
[4]	4 范重,刘先明,范学伟. 国家体育场大跨度钢结构设计与研究[J].建筑结构学报,2007,(02):1-16.doi:10.3321/j.issn:1000-6869.2007.02.001.
[5]	9 张金斗. 上海南浦大桥主桥上部结构施工工艺[J].土木工程学报,1992,(06):17-24.
[6]	10 崔峰,万木运. 九江长江大桥15MnVN钢板的研制与生产[J].钢结构,1995,(01):14-24.
[7]	11 秦永坚,王登科,唐其练. 500kV双回路输电线路铁塔采用Q420高强钢的研究[J].武汉大学学报(工学版),2007,(z1):200-203.
[8]	12 李正良,刘红军,张东英. Q460高强钢在1000kV杆塔的应用[J].电网技术,2008,(24):1-5.doi:10.1073/pnas.0804650106.
[9]	13 Rasmussen K J R,Hancock G J. Tests of High Strength Steel Columns[J].Journal of Constructional Steel Research,1995,(01):27-52.doi:10.1016/0143-974X(95)97296-A.
[10]	5 陈振明,张耀林,彭明祥. 国产高强钢及厚板在央视新台址主楼建筑中的应用[J].钢结构,2009,(02):34-38.
[11]	6 Collin P,Johansson B. Eurocode for High Strength Steel and Applications in Construction[DB/OL].http://pure.ltu.se/ws/fbspretrieve/630769,2010.
[12]	7 Miki C,Homma K,Tominaga T. High Strength and High Performance Steels and Their Use in Bridge Structures[J].Journal of Constructional Steel Research,2002,(01):3-20.
[13]	8 苟明康,陶莉. 口.≥700MPa的高强钢在移动桥梁装备中的应用[J].钢结构,2002,(05):6-9.
[14]	14 Rasmussen K J R,Hancock G J. Plate Slenderness Limits for High Strength Steel Sections[J].Journal of Constructional Steel Research,1992,(01):73-96.
[15]	15 Usami T,Fuknmoto Y. Local and Overall Buckling of Welded Box Columns[J].Journal of the Structural Division ASCE,1982,(ST3):525-542.
[16]	16 Nishino F,Ueda Y,Tall L. Experimental Investigation of the Buckling of Plates with Residual Stresses[A].Philadelphia,Pennsylvania:ASTM Special Technical Publication,1967.12-30.
[17]	17 McDermott J F. Local Plastic Buckling of A514 Steel Members[J].Journal of the Structural Division ASCE,1969,(ST9):1837-1850.
[18]	18 Beg D,Hladnik L. Slenderness Limit of Class 3 I Cross-Sections Made of High Strength Steel[J].Journal of Constructional Steel Research,1996,(08):201-207.
[19]	19 Research School Integral Design of Structures.Research Projects 2006[R].Delft,the Netherlands,2006.
[20]	20 Gir~io Coelho A M,Bijlaard F S K. Experimental Behaviour of High-Strength Steel Web Shear Panels[J].Engineering Structures,2009,(07):1543-1555.
[21]	21 Girao Coelho A M,Bijlaard F S K. Experimental Behaviour of High Strength Steel End-Plate Connections[J].Journal of Constructional Steel Research,2007,(09):1228-1240.22 Heinila S,Marquis G B,Bjrk T. Observations on Fatigue Crack Paths in the Corners of Cold-Formed High-Strength Steel Tubes[J].Engineering Fracture Mechanics,2008,(3/4):833-844.
[22]	23 Martinez L L,Blom A F,Trogen H. Fatigue Behaviour of Steels with Strength Levels Between 350 and 900 MPa Influence of Post Weld Treatment Under Spectrum Loading[A].Stockholm,Sweden,1997.361-376.
[23]	24 Pijpers R J M,Kolstein M H,Romeijn A. Fatigue Experiments on Very High Strength Steel Base Material and Transverse Butt Welds[J].Advanced Steel Construction,2009,(01):14-32.
[24]	25 Gustafsson M. Thickness Effect in Fatigue of Welded Extra High Strength Steel Joints[A].Stockholm,Sweden,2002.205-224.
[25]	26 Olsson K E,Kahonen A. Profitability of High Strength Steels in Fatigue Loaded Structures[A].Stockholm,Sweden,2002.247-276.
[26]	27 Ban H Y,Shi G,Shi Y J. Research Progress on the Mechanical Property of High Strength Structural Steels[J].Current Advances in Materials and Processes,2011.640-648.
[27]	28 班慧勇,施刚,石永久. 超高强度钢材焊接截面残余应力分布研究[J].工程力学,2008,(SII):57-61.
[28]	29 班慧勇,施刚,邢海军. Q420等边角钢轴压杆稳定性能研究(I)--残余应力的试验研究[J].土木工程学报,2010,(07):14-21.
[29]	30 施刚,王元清,石永久. 高强度钢材轴心受压构件的受力性能[J].建筑结构学报,2009,(02):92-97.
[30]	31 施刚,石永久,王元清. 运用ANSYS分析超高强度钢材钢柱整体稳定特性[J].吉林大学自然科学学报,2009,(01):113-118.
[31]	32 施刚,石永久,王元清. 超高强度钢材焊接箱形轴心受压柱藏体稳定的有限元分析[J].沈阳建筑大学学报,2009,(02):255-261.
[32]	33 班慧勇,施刚,刘钊. Q420等边角钢轴压杆整体稳定性能试验研究[J].建筑结构学报,2011,(02):60-67.
[33]	34 拓燕艳. Q460高强角钢轴心受压构件整体稳定性的理论和试验研究[D].西安:西安建筑科技大学,2009.
[34]	35 孟路希. Q460等边角钢稳定承载力的试验研究[D].重庆:重庆大学,2009.
[35]	36 施刚,班慧勇,BijlaardFSK. 端部带约束的超高强度钢材受压构件整体稳定受力性能的试验研究和有限元分析[J].土木工程学报,2011,(10):17-25.
[36]	37 Shi G,Liu Z,Ban H Y. Experiments on the Local Buckling of 420 MPa Steel Equal Angle Columns Under Axial Compression[A].Hong Kong:The Hong Kong Institute of Steel Construction,2009.237-244.
[37]	38 魏鹏. Q460高强角钢轴压杆肢件宽厚比限值试验与理论研究[D].西安:西安建筑科技大学,2009.
[38]	39 李正良,史世伦,张东英. Q460等边单角钢压杆的局部屈曲[J].沈阳工业大学学报,2009,(06):701-707.
[39]	40 王飞,施刚,戴国欣. 屈强比对钢框架抗震性能影响研究进展[J].建筑结构学报,2010,(增刊1):18-22.
[40]	41 Wang F,Shi G,Dai G X. Finite Element Analysis on the Seismic Behavior of High Strength Steel Frames[A].广东广州,2010.2014-2020.

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