水平地震作用下多层冷弯薄壁型钢结构住宅的抗震性能研究
|
摘要
多层冷弯薄壁型钢结构在我国属于一种新型住宅体系,本文从研究冷弯薄壁型钢结构的主要抗侧力构件-组合墙体的抗震性能入手,并采用时程分析和基于性能的抗震设计方法,对多层冷弯薄壁型钢结构在水平地震作用下的抗震性能进行了系统的研究,以推动该结构在我国的推广应用,本文主要研究内容、方法和结论如下:
1.采用足尺模型试件,研究墙面板材料、墙体开洞以及加载方式等因素对多层冷弯薄壁型钢组合墙体抗震性能的影响,分析了组合墙体的破坏特征、承载能力、刚度、延性以及耗能系数等。并在总结国内外相关试验的基础上,对影响组合墙体抗剪承载力的因素进行了详细的分析比较:①墙面板材料特性对墙体的抗剪承载力影响较大;双面板组合墙体的抗剪承载力约等于两类单面板组合墙体抗剪承载力之和;②墙体高宽比对其抗剪承载力影响微小;随着墙体开洞比率增大,墙体抗剪承载力明显减小;随着墙架柱截面尺寸,钢材厚度增加,墙架柱间距减小,墙体抗剪承载力增加;③随着墙体周边自攻螺钉间距减小,组合墙体抗剪承载力明显提高;④组合墙体在低周反复加载作用下,抗剪承载力比其在单调加载作用下平均低约10%。
2.通过分析水平荷载作用下,冷弯薄壁型钢组合墙体荷载-层间转角滞回曲线的特征,采用试验拟合的方法,建立了能考虑刚度退化、滑移以及捏拢效应等特征的组合墙体退化四线型恢复力模型,并给出了恢复力模型中骨架曲线、滞回曲线各阶段刚度的确定方法。
3.采用ANSYS有限元分析软件,建立多层冷弯薄壁型钢结构住宅的三维空间整体模型,对其进行模态分析,并选择合理的地震波分析其在水平地震作用下的时程反应,提出多层冷弯薄壁型钢结构在多遇地震作用下的弹性层间位移角限值为1/750;在罕遇地震作用下的弹塑性层间位移角限值为1/100。通过参数分析得出8度抗震设防地区,冷弯薄壁型钢结构住宅可以建到6层,高18m;在7度及以下抗震设防地区,冷弯薄壁型钢结构住宅的高宽比宜小于3;在8度抗震设防地区,冷弯薄壁型钢结构住宅的高宽比宜小于2.5。
4.应用基于性能的抗震设计思想,结合我国现行抗震设计规范,并总结相关试验破坏特征,提出多层冷弯薄壁型钢结构住宅正常使用、可修和不倒塌三种性能水平下结构的损坏极限状态,以及三种预定性能水平下结构的位移目标。采用水平位移加载模式对多层冷弯薄壁型钢结构住宅进行推覆分析。且提出了冷弯薄壁型钢组合墙体基于位移设计的基本方法,并给出了水平荷载作用下组合墙体的侧移值计算公式,可供设计参考。
Cold-formed steel framing system of mid-rise residential building is a new structural system.In order topromote the application of cold-formed steel framing system of mid-rise residential building in our country,thisthesis firstly studied the seismic resistance of cold-formed steel stud compound wall which played an importantrole in the wind and seismic resistance of this building system,then the seismic behavior of cold-formed steelframing system of mid-rise residential building under horizontal earthquake action was studied by time historyanalysis and performance-based seismic design approach.The study emphases,method and conclusions ofthe investigation were listed as following.
1.Full-size tests were carried out to study the seismic resistance of cold-formed steel stud compound wall.The influence of the parameters,including material behavior of sheathing,hole ratios andloading type,on seismic resistance of cold-formed steel stud walls was analyzed by the test.The seismic performances of the composed walls such as failure traits,bearing capacity,ductility were discussed.Comparing with the experimental results in China and abroad,theseresults showed that:①Sheathings influenced wall's shear resistance greatly;and the shearresistance of the double boards cold-formed steel stud compound wall was about equal to the sumof the two kinds of same single board compound wall.②Aspect ratio had little influence to theshear resistance of walls.With the increase of hole ratios,the specimen's shear-resistance hadclearly decreased.With the increase of stud section,steel thickness and the decrease of studspacing,the wall's load capacity increased obviously.③With the decrease of screw spacing inthe edge of wall,the wall's load capacity increased obviously.④The shear resistance ofspecimens under monotonic loading increased by 10% that of the specimen under cyclicloading.
2.According to the load-story drift curves,the thesis suggested four-linear restoring force modeof cold-formed steel stud compound wall under horizontal load.The characters of stiffness degradation,slip and pinched were showed in the restoring force mode.The thesis also gave the stiffnesscalculative formulas of exponential and hysteresis curves.
3.Three-dimensional model of cold-formed steel framing system of mid-rise residential buildingwas established using the ANSYS program to study the mode of the system.Based on the time historyanalysis of the building system under horizontal earthquake action,the thesis suggested thatelastic angular displacement limited value under small earthquake was 1/750 and plasticangular displacement limited value under big earthquake was 1/100 of cold-formed steel framingsystem of mid-rise residential building.According to a detailed parametric study,the thesis draw the conclusion that cold-formed steel framing system was appropriate to be used in six-storeyresidences whose height was 18 meters where the seismic fortification intensity was 8,theheight to width ratio was limited to 3 where the seismic fortification intensity was 7 and 2.5where the seismic fortification intensity was 8.
4.A performance-based seismic design approach of cold-formed steel framing system of mid-rise residentialbuilding was put forward through a direct-displacement methodology.According to the current ChineseCode for Seismic Design of Building and the deformation characteristics of this building system,the thesisprovided three different damage limit states corresponding to no damage,repairable and no collapserespectively and the target displacement to these performance levels.Displacement-pattern-basedseismic design method was adopted to analyse the cold-formed steel framing system of mid-riseresidential building.This thesis also suggested the displacement-based seismic design method ofcold-formed steel stud compound wall,and gave the displacement calculative formulas of wall,which could be referred by designers.
1.采用足尺模型试件,研究墙面板材料、墙体开洞以及加载方式等因素对多层冷弯薄壁型钢组合墙体抗震性能的影响,分析了组合墙体的破坏特征、承载能力、刚度、延性以及耗能系数等。并在总结国内外相关试验的基础上,对影响组合墙体抗剪承载力的因素进行了详细的分析比较:①墙面板材料特性对墙体的抗剪承载力影响较大;双面板组合墙体的抗剪承载力约等于两类单面板组合墙体抗剪承载力之和;②墙体高宽比对其抗剪承载力影响微小;随着墙体开洞比率增大,墙体抗剪承载力明显减小;随着墙架柱截面尺寸,钢材厚度增加,墙架柱间距减小,墙体抗剪承载力增加;③随着墙体周边自攻螺钉间距减小,组合墙体抗剪承载力明显提高;④组合墙体在低周反复加载作用下,抗剪承载力比其在单调加载作用下平均低约10%。
2.通过分析水平荷载作用下,冷弯薄壁型钢组合墙体荷载-层间转角滞回曲线的特征,采用试验拟合的方法,建立了能考虑刚度退化、滑移以及捏拢效应等特征的组合墙体退化四线型恢复力模型,并给出了恢复力模型中骨架曲线、滞回曲线各阶段刚度的确定方法。
3.采用ANSYS有限元分析软件,建立多层冷弯薄壁型钢结构住宅的三维空间整体模型,对其进行模态分析,并选择合理的地震波分析其在水平地震作用下的时程反应,提出多层冷弯薄壁型钢结构在多遇地震作用下的弹性层间位移角限值为1/750;在罕遇地震作用下的弹塑性层间位移角限值为1/100。通过参数分析得出8度抗震设防地区,冷弯薄壁型钢结构住宅可以建到6层,高18m;在7度及以下抗震设防地区,冷弯薄壁型钢结构住宅的高宽比宜小于3;在8度抗震设防地区,冷弯薄壁型钢结构住宅的高宽比宜小于2.5。
4.应用基于性能的抗震设计思想,结合我国现行抗震设计规范,并总结相关试验破坏特征,提出多层冷弯薄壁型钢结构住宅正常使用、可修和不倒塌三种性能水平下结构的损坏极限状态,以及三种预定性能水平下结构的位移目标。采用水平位移加载模式对多层冷弯薄壁型钢结构住宅进行推覆分析。且提出了冷弯薄壁型钢组合墙体基于位移设计的基本方法,并给出了水平荷载作用下组合墙体的侧移值计算公式,可供设计参考。
Cold-formed steel framing system of mid-rise residential building is a new structural system.In order topromote the application of cold-formed steel framing system of mid-rise residential building in our country,thisthesis firstly studied the seismic resistance of cold-formed steel stud compound wall which played an importantrole in the wind and seismic resistance of this building system,then the seismic behavior of cold-formed steelframing system of mid-rise residential building under horizontal earthquake action was studied by time historyanalysis and performance-based seismic design approach.The study emphases,method and conclusions ofthe investigation were listed as following.
1.Full-size tests were carried out to study the seismic resistance of cold-formed steel stud compound wall.The influence of the parameters,including material behavior of sheathing,hole ratios andloading type,on seismic resistance of cold-formed steel stud walls was analyzed by the test.The seismic performances of the composed walls such as failure traits,bearing capacity,ductility were discussed.Comparing with the experimental results in China and abroad,theseresults showed that:①Sheathings influenced wall's shear resistance greatly;and the shearresistance of the double boards cold-formed steel stud compound wall was about equal to the sumof the two kinds of same single board compound wall.②Aspect ratio had little influence to theshear resistance of walls.With the increase of hole ratios,the specimen's shear-resistance hadclearly decreased.With the increase of stud section,steel thickness and the decrease of studspacing,the wall's load capacity increased obviously.③With the decrease of screw spacing inthe edge of wall,the wall's load capacity increased obviously.④The shear resistance ofspecimens under monotonic loading increased by 10% that of the specimen under cyclicloading.
2.According to the load-story drift curves,the thesis suggested four-linear restoring force modeof cold-formed steel stud compound wall under horizontal load.The characters of stiffness degradation,slip and pinched were showed in the restoring force mode.The thesis also gave the stiffnesscalculative formulas of exponential and hysteresis curves.
3.Three-dimensional model of cold-formed steel framing system of mid-rise residential buildingwas established using the ANSYS program to study the mode of the system.Based on the time historyanalysis of the building system under horizontal earthquake action,the thesis suggested thatelastic angular displacement limited value under small earthquake was 1/750 and plasticangular displacement limited value under big earthquake was 1/100 of cold-formed steel framingsystem of mid-rise residential building.According to a detailed parametric study,the thesis draw the conclusion that cold-formed steel framing system was appropriate to be used in six-storeyresidences whose height was 18 meters where the seismic fortification intensity was 8,theheight to width ratio was limited to 3 where the seismic fortification intensity was 7 and 2.5where the seismic fortification intensity was 8.
4.A performance-based seismic design approach of cold-formed steel framing system of mid-rise residentialbuilding was put forward through a direct-displacement methodology.According to the current ChineseCode for Seismic Design of Building and the deformation characteristics of this building system,the thesisprovided three different damage limit states corresponding to no damage,repairable and no collapserespectively and the target displacement to these performance levels.Displacement-pattern-basedseismic design method was adopted to analyse the cold-formed steel framing system of mid-riseresidential building.This thesis also suggested the displacement-based seismic design method ofcold-formed steel stud compound wall,and gave the displacement calculative formulas of wall,which could be referred by designers.
引文
[1]童悦仲,娄乃琳.美国的多层轻钢结构住宅[J].住宅产业,2004,58 (11):36-39
[2]刘敬疆,杨朋飞.薄壁轻钢住宅建筑体系在我国住宅建设中的应用[EB/OL].http://www.fjjsjl.org/printpage.asp?newsid=956,2007-10-19
[3]王有为,赵基达,童悦仲.美国多层轻钢结构住宅技术及其引进的相关问题[J].工程质量,2005(12):8-11
[4]Dean H Peyton.Mid-Rise Structures Designed and Built Using Load Bearing Cold-Formed Steel[J].Newsletter for the Light Gauge Steel Engineers Association,January,2001,1-7
[5]徐磊.加拿大轻钢结构住宅体系[J].上海建材,2001 (6):38-39
[6]陈坚,陆国威.新型轻钢龙骨多层结构体系分析[J].工业建设,2006,38 (1):11-14
[7]加拿大无比钢建筑体系获准在中国实施[EB/OL].ww.build.com.cn/zixun/trend/050601.htm 2K 2005-6-14
[8]柯长仁.轻钢龙骨体系多层房屋力学性能比较分析[D].武汉理工大学,2006
[9]全面推进钢结构住宅产业化[EB/OL].www.csm.org.cn/kptd2/n397.aspx 32K 2007-3-30
[10]娄乃琳.多层轻钢结构住宅可填能耗“黑洞”[EB/OL].www.xmhouse.com/HouseNews/xwpd/fcxw/fcxw/200803/t20080327_112679.htm,2008-3-27
[11]张东宁.北新薄板钢骨结构住宅闪亮登场[J].《中国建设报》之中国楼市,2002
[12]于炜文著,董军,夏冰青译.冷成型钢结构设计(原文第三版)[M].北京:中国水利水电出版社和知识产权出版社,2003
[13]Timoshenko S.P.,Gere J.M.Theory of Elastic Stability,2nd Ed[M].McGraw-Hill,1961
[14]Simaan A.,Pekoz T.Diaphragm Braced Members and Design of Wall Studs[J].Journal of Structural Division,Proceedings of American Society of Civil Engineers 1976,102(ST 1):77-93
[15]American Iron and Steel Institute.Specification for the Design of Cold-formed Steel Structural Members[S].Washington:American Iron and Steel Institute,1986
[16]American Iron and Steel Institute.Specification for the Design of Cold-formed Steel Structural Members[S].Washington:American Iron and Steel Institute,1996
[17]Miller T.H.,Pekoz T.Behavior of Cold-Formed Steel Wall Stud Assemblies[J].Joumal of Structural Engineering,1993,119(2):641-651
[18]Miller T.H.,Pekoz T.Behavior of Gypsum-Sheathed Cold-Formed Steel Wall Studs[J].Journal of Structural Engineering,1994,120(5):1644-1650
[19]Telue Y.K.,Mahendran M.Behavior of Cold-formed Steel Wall Frames Lined With Plasterboard[J]Journal of Constructional Steel Research,2001,57:435-452
[20]Telue Y.K.Behaviour and Design of Plasterboard Lined Cold-formed Steel Stud Wall Systems under Axial Compression[D].PhD Thesis,School of Civil Engineering,Queensland University of Technology,Brisbane,Australia,2001
[21]Telue,Y.K.,Mahendran M.Finite Element Modelling of Cold-formed Steel Wall Frames Lined with Plasterboard[C].In:Proc.16th Australasian Conference on the Mechanics of Structures and Materials,Sydney,1999:335-400.
[22]Telue Y.K.,Mahendran M.Finite Element Analysis and Design of Unlined Cold-formed Steel Stud Wall Frames[C].In Proceedings of the 3rd European Conference on Steel Structures,Coimbra,Portugal;2002:753-763.
[23]Telue Y.K.,Mahendran M.Behavior and Design of Cold-formed Steel Wall Frames Lined With Plasterboard on Both Sides[J].Engineering Structures,2004,26:567-579
[24]Tian Y.S.,Wang J.,Lu T.J.et al.An Experimental Study on the Axial Behavior of Cold-formed Steel Wall Studs and Panels[J].Thin-Walled Structure,2004,42:557-573
[25]刘前进,何保康,周天华.低层冷弯型钢房屋墙体墙架柱承载力试验研究[J].2004,19(4):26-29
[26]秦雅菲,张其林.冷弯薄壁型钢墙柱骨架的轴压性能试验研究和设计建议[J].建筑结构学报,2006,27(3):34-41
[27]秦雅菲.冷完薄壁型钢低层住宅墙柱体系轴压性能理论与试验研究[D].上海:同济大学,2006
[28]Tarpy T.S.,Girard J.D.Shear Resistance of Steel-stud Wall Panels[J].In Proceedings of the 6th International Specialty Conference on Cold-formed Steel Structures,1982:449-465
[29]Shear Wall Design Guide[S].American iron and steel institute,1998
[30]Serrette R.L.,Ogunfunmi K.Shear Resistance of Ggypsum-sheathed Light Gauge Steel Stud Walls[J]Journal of structural engineering,1996,122(4):386-389
[31]Serrette R.L.,Encalada J.,Juadines M.et al.Static Racking Behavior of Plywood,OSB,Gypsum,and Fiberboard Walls with Metal Framing[J].Journal of Structural Engineering,1997,123(8):1079-1086
[32]NAHB Research Center.Monotonic Tests Of Cold-formed Steel Shear Walls with Openings[R]. American Iron and Steel Institute,1997
[33]Gad E.F.,Duffield C.F.,Hutchinson,G.L.,et al.Lateral Performance of Cold-formed Steel-framed Domestic Structures[J].Engineering Structures,1999,21(1):83-95
[34]Tian Y.S.,Wang J.,Lu T.J.Racking Strength and Stiffness of Cold-formed Steel Wall Frames[J].Journal of Constructional Steel Research,2004 (60):1069-1093
[35]F(?)l(?)p L.A.,Dubina.D.Performance of Wall-stud Cold-formed Shear Panels under Monotonic and Cyclic Loading Part Ⅰ:Experimental Research[J].Thin-Walled Structures,2004 (42):321-338
[36]Seung-Eun Lee.Evaluation of the Shear Performance of Cold-formed Steel Wall Frames with Structural Sheathing under Axial Load[C].Proceedings of the 8th Korea-China-Japan symposium on structural steel construction,Korean society of steel construction,2005:139-146
[37]Serrette R.L.,Lam I.,Qi H.Cold-Formed Steel Frame Shear Walls Utilizing Structural Adhesives[J].Journal of Structural Engineering,2006,132 (4):591-599
[38]郭丽峰.轻钢密墙架柱墙体的抗剪承载力研究[D].西安:西安建筑科技大学,2004
[39]周绪红.低层冷弯薄壁型钢结构住宅组合墙体抗剪试验研究报告[R].西安:长安大学,2005
[40]周天华,石宇,周绪红.冷弯型钢组合墙体抗剪承载力试验研究[J].西安建筑科技大学学报(自然科学版),2006,38(1):83-88
[41]Yoshimichi K.Seismic Resistance and Design of Steel-Framed House[J].Nippon Steel Technical Report No 79,1999:6-16
[42]殷惠光,张跃峰.《低层冷弯薄壁型钢建筑技术规程》编制背景[J].工程建设与设计,2004 (7):24-26
[43]Dan DUBINA.冷成型钢框架房屋的抗震性能[J].建筑钢结构进展.2007,9 (1):1-17
[44]沈祖炎,李元齐,王彦敏.屈服强度550Mpa高强冷弯薄壁型钢结构设计理论系列研究[C].2007全国轻型钢结构技术研讨会论文集,2007:4-10
[45]杨溥.基于位移的结构地震反应分析方法研究[D].重庆:重庆建筑大学,1999
[46]小古俊介.日本基于性能结构抗震设计方法的发展[J].建筑结构,2000,30(6):3-9
[47]王亚勇.我国2000年工程抗震设计模式规范基本问题研究综述[J].建筑结构学报,2000,21(1):2-4
[48]李应斌,刘伯权,史庆轩.基于结构性能的抗震设计理论研究与展望[J].地震工程与工程振动,2001,21(4):72-79
[49]Filiatrault A.,Folz B.Performance-Based Seismic Design of Wood Framed Buildings[J].Journal of StructuralEngineering,2002,128(1):39-47
[50]Kim J.H.Performance-Based Seismic Design of Light-Frame Shearwalls[D].American:Oregon State University,2004
[51]程绍革,王理,张允顺.弹塑性时程分析方法及其应用[J].建筑结构学报,2000,21(1):52-56
[52]王松涛等.现代抗震设计方法[M].中国建筑工业出版社,1997
[53]Bertero R.,Bertero V.V.,et al.Performance-based Earthquake-resistant Design Based on Comprehensive Philosophy and Energy Concepts[C].Proceedings of 11th World Conference on Earthquake Engineering,Elsevier Science Ltd.,1996
[54]GB50352-2005民用建筑设计通则[S].北京:中国建筑工业出版社,2002
[55]GB50009-2001建筑结构荷载规范[S].北京:中国建筑工业出版社,2002
[56]GB50011-2001建筑抗震设计规范[S].北京:中国建筑工业出版社,2001
[57]JGJ99-98高层民用建筑钢结构技术规程[S].北京:中国建筑工业出版社,1998
[58]JG/T182-2005低层轻型钢结构装配式住宅技术要求[S].
[59]周绪红,石宇,周天华等.低层冷弯薄壁型钢结构住宅体系[J].建筑科学与工程学报,2005,22(2):1-14
[60]梁小青等.北新多层轻钢住宅课题研究总报告[R].http://www.chinahouse.gov.cn/zjlt9/9470.htm
[61]周绪红.多层冷弯薄壁型钢结构住宅组合墙体轴压性能试验研究[R].西安,长安大学,2007
[62]Design Guide for Cold-formed Steel Trusses[S].Copyright 1995 by the American Iron and Steel Institute
[63]Xu L.,Min H.,Schuster R.M.Optimization Design of Cold-Formed Steel Residential Roof Trusses[C].American Iron and Steel Institute.Fifteenth International Specialty Conference on Cold-Formed Steel Structures:Recent Research and Developments in Cold-Formed Steel Design and Construction.MO:University of Missouri-Rolla Press,2000:393-410
[64]张耀春,周绪红.钢结构设计原理[M].高等教育出版社,2004
[65]周绪红.钢结构设计指导与实例精选[M].北京:中国建筑工业出版社2008
[66]郭兵,纪伟东,赵永生等.多层民用钢结构房屋设计[M].北京:中国建筑工业出版社,2005
[67]周绪红,石宇.冷弯薄壁型钢结构住宅组合墙体受剪性能研究[J].建筑结构学报,2006,27(3):42-47
[68]潘红晓,刘承宗.轻型钢骨结构低层住宅设计荷载分析[J].建筑钢结构进展,2003,5 (3):60-64
[69]AISI/COS/PM 2001 Standard for Cold-formed Steel Framing-Prescriptive Method for One or Two Family Dwellings[S]
[70]AISI 2001 Commentary for the Standard for Cold-formed Steel Framing-Prescriptive Method for One or Two Family Dwellings[S]
[71]刘立新.砌体结构[M].武汉:武汉工业大学出版社,2001
[72]Prescriptive method for residential cold-formed steel framing[S].North American Steel Framing Alliance(NASFA).Year 2000 Edition.
[73]石宇.低层冷弯薄壁型钢结构住宅组合墙体抗剪承载力研究[D].西安:长安大学,2005
[74]聂少锋.冷弯型钢墙架柱组合墙体抗剪承载力简化计算方法研究[D].西安:长安大学,2006
[75]Serrette R.L.,Khanh C.Estimating Drift in Cold-Formed Steel Frame Structures[C].Proceedings of the 2006 Structures Congress,2006:1-11
[76]Chen C.Y.,Okasha A.F.,Rogers C.A.Analytical Predictions of Strength and Deflection of Light Gauge Steel Frame/Wood Panel Shear Walls[C].The International Conference on Advances in Engineering Structures,Mechanics and Construction.Universtiy of Waterloo,Ontario,Canada.2006:381-391.
[77]聂少锋,周天华,周绪红等.冷弯型钢组合墙体抗剪承载力简化计算方法研究[J].西安建筑科技大学学报,2007,39(5):598-604
[78]GB50018-2002,冷弯薄壁型钢结构技术规程[S].北京:中国建筑工业出版社,2002
[79]周学军,王敦强.钢与混凝土组合结构设计与施工[M].山东:山东科学技术出版社,2003
[80]北京金土木软件技术有限公司.SAP2000中文版使用指南[M].北京:人民交通出版社,2006
[81]《轻型钢结构设计手册》编辑委员会.轻型钢结构设计手册[M]北京:中国建筑工业出版社,2006
[82]周绪红.冷弯薄壁型钢结构住宅组合墙体抗剪试验研究报告[R].西安:长安大学,2007
[83]GB/T228-2002,金属材料-室温拉伸试验方法[S].北京:中国标准出版社,2002
[84]JGJ101-96,建筑抗震试验方法规程[S].北京:中国建筑科学研究院,1997
[85]姚谦峰,苏三庆.地震工程[M].陕西:陕西科学技术出版社,2001
[86]沈聚敏,周锡元,高小旺等.抗震工程学[M].北京:中国建筑工业出版社,2004
[87]朱伯龙,屠成松.工程结构抗震设计原理[M].上海:同济大学出版社,1994
[88]Branston A.and Boudreault F.Testing of Steel Frame/Wood Panel Shear Walls[R].Department of Civil Engineering and Applied Mechanics,McGill University,Montreal,Canada,2003.
[89]Folz B.and Filliatrault A.Cyclic Analysis of Wood Shear Walls[J].Journal of Structural Engineering, 2001,127(4):433-441
[90]Pang W.C.Rosowsky D.V.and Pei S.Evolutionary Parameter Hysteretic Model for Wood Shear Walls[J].Journal of Structural Engineering,2007,133(8):1118-1129
[91]John W.and Matthew A.Development and Application of Wood Shear Wall Reliability Model[J].Journal of Structural Engineering,2003,129(3):405-413
[92]Ahmed M.T.and Rafik Y.I.Seimic Response of Light-Frame Wood Buildings[J].Journal of Structural Engineering,1997,123(11):1470-1477
[93]Corte G.D.,Fiorino L.,Landolfo R.Seismic Behavior of Sheathed Cold-Formed Structures:Numerical Study.Journal of Structural Engineering,2006,132(4):558—569
[94]Landolfo R.,Fiorino L.,Corte G.D.Seismic Behavior of Sheathed Cold-Formed Structures:Physical Tests.Journal of Structural Engineering,2006,132(4):570-581
[95]黄炜.密肋复合墙体抗震性能及设计理论研究[D].西安:西安建筑科技大学,2004
[96]袁泉.密肋壁板轻框结构非线性地震反应分析[D].西安:西安建筑科技大学,2003
[97]董军,夏冰青,马宏.NAFCLCFC板及其与轻钢龙骨自攻螺栓连接性能[J].南京工业大学学报,2002,24(5):12-15
[98]Fan L.X.,Rondal J.and Cescotto S.Numerical Simulation of Lap Screw Connections[J].Thin-Walled Structures,1997 (29):235-241
[99]AISI TS-4-02,Standard Test Methods for Determining the Tensile and Shear Strength of Screws[S].
[100]F(?)l(?)p L.A.and Dubina D.Design Criteria for Seam and Sheeting-to-Framing Connections of Cold-Formed Steel Shear Panels[J].Journal of Structural Engineering,2006,132(4):582-590
[101]Raffaele L.Shear Behavior of Connections between Cold-formed Steel Profiles and Wood or Gypsum-based Panels:an Experimental Investigation[C].Proceedings of the Structures Congress and Exposition,2006,Structures Congress 2006:48
[102]徐培福,戴国莹.超限高层建筑结构基于性能抗震设计的研究[J].土木工程学报,2005,38(1):1-10
[103]Bommer J.J.Displacement Spectra for Seismic Design[J].Journal of Earthquake Engineering,1993,3(1):1-32
[104]周绪红,李艳敏,石宇等.竖向荷载作用下冷弯薄壁型钢墙架柱的承载力[J].建筑科学与工程学报,2006,23(3):7-13
[105]陈绍蕃.卷边槽钢的局部相关屈曲和畸变屈曲[J].建筑结构学报,2002,23(1):27-31.
[106]李云贵,邵弘,田志昌等.多层、高层建筑结构弹塑性动力、静力分析[J].建筑结构学报,2002,23(5):56-62
[107]李明昊.高层建筑结构的非线性时程分析[J].四川建筑2006,26 (1):119-121
[108]张雪姣.轻钢龙骨体系住宅抗震性能研究[D].南京:南京工业大学,2005
[109]魏琏等.抗震设计手册[M].中国建筑科学研究院工程抗震研究所,1985年
[110]Kasal B.J.,Leichti and Itani R.Y.Nonlinear finite-element model of complete light-frame wood structures[J].Journal of Structural Engineering,1994,120(1):100-119
[111]程海江.轻型木结构房屋抗震性能研究[D].上海:同济大学,2007
[112]汪梦甫,沈蒲生.钢筋混凝土高层结构非线性地震反应分析现状[[J].世界地震工程,1998
[113]Swanson Analysis Systems.Element Reference[M].SAS Inc.:Canonsburg USA,1999
[114]黄宗明.结构地震反应时程分析中的阻尼研究[D].重庆:重庆大学,1995
[115]Leger P.,Dussault S.Seismic-Energy Dissipation MDOF Structures,J.Strue.Energ[J].ASCE,118(5),1992
[116]董军,邓洪洲,王肇民.结构动力分析阻尼模型研究[J].世界地震工程,2000,16(4):63-69
[117]Clough C.W.,Penzien J.Dynamics of Structures[M].Second edition.McGram-Hill,Inc,1993
[118]李田.结构时程动力分析中的阻尼研究[J].土木工程学报,1997,30(3):68-73.
[119]韦定国,王清敏,前国芳等.工程结构抗震[M].北京:地震出版社,1997
[120]王亚勇.建筑结构时程分析法输入地震波的研究[J].建筑结构学报,1991 (2):51-60
[121]王亚勇.关于设计反应谱、时程法和能量方法的探讨[J].建筑结构学报,2000,21 (1):21-28
[122]邓军,唐家祥.时程分析法输入地震记录的选择与实例[J].工业建筑,2000,30 (8):9-12
[123]杨溥,李英民,赖明.结构时程分析法输入地震波的选择控制指标[J].土木工程学报,2000,33(6):33-37
[124]胡文源,邹晋华.时程分析法中有关地震波选取的几个注意问题[J].南方冶金学院学报,2003,24 (4):25-28
[125]盛和太,喻海良.ANSYS有限元原理与工程应用实例大全[M].北京:清华大学出版社,2006
[126]周绪红,石宇等.低层冷弯薄壁型钢结构住宅体系[J].建筑科学与工程学报,2005,22(2):1-14
[127]Prescriptive Method for Residential Cold-formed Steel Framing[S].North American steel framing alliance year 2000 edition
[128]GB50223-2004,建筑抗震设防分类标准[S].北京:中国建筑工业出版社.2004
[129]Uang C,Bertero V.V.Evaluation of seismic energy in structures[J].Earthquake Engineering and Structural Dynamics,1990,19(2):177-190
[130]Nassar A.A.,Krawinkler H.Seismic demands for SDOF and MDOF system[R].In:Blume J A,ed.Report No.95.Standford University:Earthquake Engineering Center,1991.13-18
[131]Moehle J.P.Displacement based design of RC structure[C].In:Eerva A,ed.10~(th) world conf.on Earthquake Eng.Mexico:WECC,1992,1567-1574
[132]Priestly M.J.Displacement based design[J].In:Report No.SSRP 94/16,Structural Systems Research,1994,26-32
[133]Braccj M.,Kunnath S.K.Seismic performance and retrofit evaluation of reinforced concrete structural engineering[J].Journal of Structural Engineering,1997,123(1):29-34
[134]SEAOC Vision 2000 Committee.Performance-Based Seismic Engineering[R].Report prepared by Structure Engineering Association of California Sacramento,California,U.S.1995,10-18.
[135]Building Seismic Safty Council (BSSC).NEHRP Guide lines for the Seismic Rehabilitation of Buildings[S].FEMA273,Federal Emergency Management Agency,Washington DC,1997
[136]Building Seismic Safty Council (BSSC).NEHRP Commentary on Guidelines for the Seismic Rehabilitation of Buildings[S].FEMA273,Federal Emergency Management Agency,Washington DC,1997
[137]钱稼茹,罗文斌.静力弹塑性分析—基于性能/位移抗震设计的分析工具[J],建筑结构,2000(6):23-26
[138]王亚勇.我国2000年抗震设计模式规范基本问题研究综述[J].建筑结构学报,2000,21 (1):2-4
[139]陈耿东,李刚.基于功能的结构抗震设计中一些问题的探讨[J].建筑结构学报,2000,21(1):5-11
[140]戴国莹.建筑结构基于性能要求的抗震措施初探[J].建筑结构,2000,30(10):60-62
[141]钱稼茹,罗文斌.建筑结构基于位移的抗震设计[J].建筑结构,2001,(4):3-6
[142]田颖,钱稼茹,刘凤阁.在用RC框架结构基于位移的抗震性能评估[J].建筑结构,2001,(7):53-56
[143]马宏旺,吕西林.建筑结构基于性能抗震设计的几个问题[J].同济大学学报,2002,30 (12):1429-1434
[144]张巍,孟少平.混凝土结构基于位移的抗震能力设计[J].工程抗震,2002,3:5-9
[145]汪梦甫,周锡元.基于性能的建筑结构抗震设计[J].建筑结构,2003,(3):59-61
[146]罗文斌,钱稼茹.钢筋混凝土框架基于位移的抗震设计[J].土木工程学报,2003,(5):22-29
[147]袁波,郭子雄.基于位移的抗震性能评估方法评述[J].工业建筑,2004,34(9):6-69
[148]李晓莉,吴敏哲,郭棣.基于性能的结构抗震设计研究[J].世界地震工程,2004,20 (1):153-156
[149]李刚,程耿东.基于性能的结构抗震设计—理论、方法与应用[M].北京:科学出版社,2004
[150]Collins K.R,Wen Y.K.,Foutch D.A.Dual-level seismic design:Areliability based.Earthquake Engineering and Structure Dynamics,1996,25:1433-1467
[151]Chandler A.M.,Lam T K.Performance-based Design in EarthquakeEngineering:a Multi-disciplinary Review[J].Journal of Structural Engineering,2001,23:1525-1543
[152]Bracci J.M.,Kunnath S.K.,Reinborn A M.Seismic Performance and Retrofit Evaluation for Reinforced Concrete Structures[J].Journal of Structural Engineering,1997,123(1):3-10
[153]Priestley M.J.N.Performance based seismic design[J].Bulletin of the NewZealand National Society for Earthquake Engineering,2000,33(3):325-346
[154]Wittaker A.,Constantinou M.,Tsopelas P.Displacement Estimates for Performance-Based Seismic Design[J].Journal of Structural Engineering,1998(8):905-912
[155]屈成忠,谢礼立.基于性态的砌块砌体结构极限性态目标位移确定方法的研究[J].地震工程与工程振动,2003,23(2):18-25
[156]郭子雄,吕西林,王亚勇.建筑结构在罕遇地震下弹塑性变形验算的讨论[J].工程抗震,1999(1):13-18
[157]Mohele J.P.Displacement-based design of RC Structure subjected to earthquakes[J].Earthquake Spectra,1992,8(3):403-428
[158]Kowalsky M.J.,Priestley M.J.N.,Macrae G.A.Displacement-based design of RC bridge columns in seismic regions[J].Earthquake Engineering and Structural Dynamics,1995,24:1623-1643
[159]Paulay T.,Priestley M.J.N.著,戴瑞同等译.钢筋混凝土和砌体结构的抗震设计[M].中国建筑工业出版社.北京,1998
[160]Kilar V.and Fajfar P..Simple Push-Over Analysis of Asymmetric Buildings[J].Earthquake Engineering and Structrual Dynamic,1997(26):233-249
[161]munshi J.A.,Ghosh S.K.Analysises of Seismic Performance of a Code Designed Reinforced Concrete Building[J].Engineering Structrues,1998(20):608-616
[162]Saidii M.,Sozen M.A.Simple Nonlinear Analysis of RC Structures[J].Engineering Structrues,1981,107(5):937-951
[163]Krawinkler H.Pros and Cons of a Push-over Analysis of Seismic Performance Evaluation[J].Engineering Structures,1998.20
[164]叶燎原.结构静力弹塑性分析(Push-over)的原理和计算实例[J].建筑结构学报,2000,21(1):37-43
[165]王理.空间结构非线性静力分析的工程应用[J].建筑结构学报,2000,21(1):57-62
[166]叶献国.多层建筑结构抗震性能的近似评估—改进的能力谱方法[J].工程抗震,1998,4:11-14
[167]Bertero V.V.Strength and deformation capacities of buildings under extreme environments,In:Structrual Engineering and Structural Mechanics.Prentice-Hall:Engwood Cliffs,NJ,1977,95-102
[168]雷磊,韩小雷,郑宜.直接基于位移的抗震设计方法的研究[J].华南地震,2007,27(2):26-32
[169]杨溥,李英民,王亚勇.结构静力弹塑性分析(Push-over)方法的改进[J].建筑结构学报,2000,21(1):44-51
[170]尹华伟,汪梦甫,周锡元.结构静力弹塑性分析方法的研究和改进[J].工程力学,2003,20(4):45-49
[171]汪梦甫,周锡元.关于结构静力弹塑性分析(Pushover)方法中的几个问题[J].结构工程师,2002,(4):17-22
[172]李琪,顾荣蓉.基于位移的抗震设计中位移模式的确定[J].扬州大学学报(自然科学版),2005,8(2):65-69
[173]胡聿贤.地震工程学[M].地震出版社.北京,1988
[174]Smith K.G.Innovation in Earthquake Resistant Concrete Structure Design Philosophies:A Century of Progress Since Hennebique's Patent[J].Engineering Structures,2001,23:72-81
[175]Veletsos A.S.,Newmark N.M.Effect of inelastic behavior on the response to earthquake motions[J].Proc.And World Conf.on Earthquake Engrg.,Vol.2,Tokyo,1960:895-912
[176]Krawinkler H.,Nassar A.A.Seismic design based on ductility and cumulative damage demands and design of reinforced concrete buildings[R].New York,1992:75-86
[177]Vidic T.,Fajfar P.,Fischinger M.Constent inelastic design spectra:strength and displacement[J].Earthquake Engineering and Structure Dynamics,1994,23(5):507-521
[178]范立础,卓卫东.桥梁延性抗震设计[M].北京:人民交通出版社,2001
[2]刘敬疆,杨朋飞.薄壁轻钢住宅建筑体系在我国住宅建设中的应用[EB/OL].http://www.fjjsjl.org/printpage.asp?newsid=956,2007-10-19
[3]王有为,赵基达,童悦仲.美国多层轻钢结构住宅技术及其引进的相关问题[J].工程质量,2005(12):8-11
[4]Dean H Peyton.Mid-Rise Structures Designed and Built Using Load Bearing Cold-Formed Steel[J].Newsletter for the Light Gauge Steel Engineers Association,January,2001,1-7
[5]徐磊.加拿大轻钢结构住宅体系[J].上海建材,2001 (6):38-39
[6]陈坚,陆国威.新型轻钢龙骨多层结构体系分析[J].工业建设,2006,38 (1):11-14
[7]加拿大无比钢建筑体系获准在中国实施[EB/OL].ww.build.com.cn/zixun/trend/050601.htm 2K 2005-6-14
[8]柯长仁.轻钢龙骨体系多层房屋力学性能比较分析[D].武汉理工大学,2006
[9]全面推进钢结构住宅产业化[EB/OL].www.csm.org.cn/kptd2/n397.aspx 32K 2007-3-30
[10]娄乃琳.多层轻钢结构住宅可填能耗“黑洞”[EB/OL].www.xmhouse.com/HouseNews/xwpd/fcxw/fcxw/200803/t20080327_112679.htm,2008-3-27
[11]张东宁.北新薄板钢骨结构住宅闪亮登场[J].《中国建设报》之中国楼市,2002
[12]于炜文著,董军,夏冰青译.冷成型钢结构设计(原文第三版)[M].北京:中国水利水电出版社和知识产权出版社,2003
[13]Timoshenko S.P.,Gere J.M.Theory of Elastic Stability,2nd Ed[M].McGraw-Hill,1961
[14]Simaan A.,Pekoz T.Diaphragm Braced Members and Design of Wall Studs[J].Journal of Structural Division,Proceedings of American Society of Civil Engineers 1976,102(ST 1):77-93
[15]American Iron and Steel Institute.Specification for the Design of Cold-formed Steel Structural Members[S].Washington:American Iron and Steel Institute,1986
[16]American Iron and Steel Institute.Specification for the Design of Cold-formed Steel Structural Members[S].Washington:American Iron and Steel Institute,1996
[17]Miller T.H.,Pekoz T.Behavior of Cold-Formed Steel Wall Stud Assemblies[J].Joumal of Structural Engineering,1993,119(2):641-651
[18]Miller T.H.,Pekoz T.Behavior of Gypsum-Sheathed Cold-Formed Steel Wall Studs[J].Journal of Structural Engineering,1994,120(5):1644-1650
[19]Telue Y.K.,Mahendran M.Behavior of Cold-formed Steel Wall Frames Lined With Plasterboard[J]Journal of Constructional Steel Research,2001,57:435-452
[20]Telue Y.K.Behaviour and Design of Plasterboard Lined Cold-formed Steel Stud Wall Systems under Axial Compression[D].PhD Thesis,School of Civil Engineering,Queensland University of Technology,Brisbane,Australia,2001
[21]Telue,Y.K.,Mahendran M.Finite Element Modelling of Cold-formed Steel Wall Frames Lined with Plasterboard[C].In:Proc.16th Australasian Conference on the Mechanics of Structures and Materials,Sydney,1999:335-400.
[22]Telue Y.K.,Mahendran M.Finite Element Analysis and Design of Unlined Cold-formed Steel Stud Wall Frames[C].In Proceedings of the 3rd European Conference on Steel Structures,Coimbra,Portugal;2002:753-763.
[23]Telue Y.K.,Mahendran M.Behavior and Design of Cold-formed Steel Wall Frames Lined With Plasterboard on Both Sides[J].Engineering Structures,2004,26:567-579
[24]Tian Y.S.,Wang J.,Lu T.J.et al.An Experimental Study on the Axial Behavior of Cold-formed Steel Wall Studs and Panels[J].Thin-Walled Structure,2004,42:557-573
[25]刘前进,何保康,周天华.低层冷弯型钢房屋墙体墙架柱承载力试验研究[J].2004,19(4):26-29
[26]秦雅菲,张其林.冷弯薄壁型钢墙柱骨架的轴压性能试验研究和设计建议[J].建筑结构学报,2006,27(3):34-41
[27]秦雅菲.冷完薄壁型钢低层住宅墙柱体系轴压性能理论与试验研究[D].上海:同济大学,2006
[28]Tarpy T.S.,Girard J.D.Shear Resistance of Steel-stud Wall Panels[J].In Proceedings of the 6th International Specialty Conference on Cold-formed Steel Structures,1982:449-465
[29]Shear Wall Design Guide[S].American iron and steel institute,1998
[30]Serrette R.L.,Ogunfunmi K.Shear Resistance of Ggypsum-sheathed Light Gauge Steel Stud Walls[J]Journal of structural engineering,1996,122(4):386-389
[31]Serrette R.L.,Encalada J.,Juadines M.et al.Static Racking Behavior of Plywood,OSB,Gypsum,and Fiberboard Walls with Metal Framing[J].Journal of Structural Engineering,1997,123(8):1079-1086
[32]NAHB Research Center.Monotonic Tests Of Cold-formed Steel Shear Walls with Openings[R]. American Iron and Steel Institute,1997
[33]Gad E.F.,Duffield C.F.,Hutchinson,G.L.,et al.Lateral Performance of Cold-formed Steel-framed Domestic Structures[J].Engineering Structures,1999,21(1):83-95
[34]Tian Y.S.,Wang J.,Lu T.J.Racking Strength and Stiffness of Cold-formed Steel Wall Frames[J].Journal of Constructional Steel Research,2004 (60):1069-1093
[35]F(?)l(?)p L.A.,Dubina.D.Performance of Wall-stud Cold-formed Shear Panels under Monotonic and Cyclic Loading Part Ⅰ:Experimental Research[J].Thin-Walled Structures,2004 (42):321-338
[36]Seung-Eun Lee.Evaluation of the Shear Performance of Cold-formed Steel Wall Frames with Structural Sheathing under Axial Load[C].Proceedings of the 8th Korea-China-Japan symposium on structural steel construction,Korean society of steel construction,2005:139-146
[37]Serrette R.L.,Lam I.,Qi H.Cold-Formed Steel Frame Shear Walls Utilizing Structural Adhesives[J].Journal of Structural Engineering,2006,132 (4):591-599
[38]郭丽峰.轻钢密墙架柱墙体的抗剪承载力研究[D].西安:西安建筑科技大学,2004
[39]周绪红.低层冷弯薄壁型钢结构住宅组合墙体抗剪试验研究报告[R].西安:长安大学,2005
[40]周天华,石宇,周绪红.冷弯型钢组合墙体抗剪承载力试验研究[J].西安建筑科技大学学报(自然科学版),2006,38(1):83-88
[41]Yoshimichi K.Seismic Resistance and Design of Steel-Framed House[J].Nippon Steel Technical Report No 79,1999:6-16
[42]殷惠光,张跃峰.《低层冷弯薄壁型钢建筑技术规程》编制背景[J].工程建设与设计,2004 (7):24-26
[43]Dan DUBINA.冷成型钢框架房屋的抗震性能[J].建筑钢结构进展.2007,9 (1):1-17
[44]沈祖炎,李元齐,王彦敏.屈服强度550Mpa高强冷弯薄壁型钢结构设计理论系列研究[C].2007全国轻型钢结构技术研讨会论文集,2007:4-10
[45]杨溥.基于位移的结构地震反应分析方法研究[D].重庆:重庆建筑大学,1999
[46]小古俊介.日本基于性能结构抗震设计方法的发展[J].建筑结构,2000,30(6):3-9
[47]王亚勇.我国2000年工程抗震设计模式规范基本问题研究综述[J].建筑结构学报,2000,21(1):2-4
[48]李应斌,刘伯权,史庆轩.基于结构性能的抗震设计理论研究与展望[J].地震工程与工程振动,2001,21(4):72-79
[49]Filiatrault A.,Folz B.Performance-Based Seismic Design of Wood Framed Buildings[J].Journal of StructuralEngineering,2002,128(1):39-47
[50]Kim J.H.Performance-Based Seismic Design of Light-Frame Shearwalls[D].American:Oregon State University,2004
[51]程绍革,王理,张允顺.弹塑性时程分析方法及其应用[J].建筑结构学报,2000,21(1):52-56
[52]王松涛等.现代抗震设计方法[M].中国建筑工业出版社,1997
[53]Bertero R.,Bertero V.V.,et al.Performance-based Earthquake-resistant Design Based on Comprehensive Philosophy and Energy Concepts[C].Proceedings of 11th World Conference on Earthquake Engineering,Elsevier Science Ltd.,1996
[54]GB50352-2005民用建筑设计通则[S].北京:中国建筑工业出版社,2002
[55]GB50009-2001建筑结构荷载规范[S].北京:中国建筑工业出版社,2002
[56]GB50011-2001建筑抗震设计规范[S].北京:中国建筑工业出版社,2001
[57]JGJ99-98高层民用建筑钢结构技术规程[S].北京:中国建筑工业出版社,1998
[58]JG/T182-2005低层轻型钢结构装配式住宅技术要求[S].
[59]周绪红,石宇,周天华等.低层冷弯薄壁型钢结构住宅体系[J].建筑科学与工程学报,2005,22(2):1-14
[60]梁小青等.北新多层轻钢住宅课题研究总报告[R].http://www.chinahouse.gov.cn/zjlt9/9470.htm
[61]周绪红.多层冷弯薄壁型钢结构住宅组合墙体轴压性能试验研究[R].西安,长安大学,2007
[62]Design Guide for Cold-formed Steel Trusses[S].Copyright 1995 by the American Iron and Steel Institute
[63]Xu L.,Min H.,Schuster R.M.Optimization Design of Cold-Formed Steel Residential Roof Trusses[C].American Iron and Steel Institute.Fifteenth International Specialty Conference on Cold-Formed Steel Structures:Recent Research and Developments in Cold-Formed Steel Design and Construction.MO:University of Missouri-Rolla Press,2000:393-410
[64]张耀春,周绪红.钢结构设计原理[M].高等教育出版社,2004
[65]周绪红.钢结构设计指导与实例精选[M].北京:中国建筑工业出版社2008
[66]郭兵,纪伟东,赵永生等.多层民用钢结构房屋设计[M].北京:中国建筑工业出版社,2005
[67]周绪红,石宇.冷弯薄壁型钢结构住宅组合墙体受剪性能研究[J].建筑结构学报,2006,27(3):42-47
[68]潘红晓,刘承宗.轻型钢骨结构低层住宅设计荷载分析[J].建筑钢结构进展,2003,5 (3):60-64
[69]AISI/COS/PM 2001 Standard for Cold-formed Steel Framing-Prescriptive Method for One or Two Family Dwellings[S]
[70]AISI 2001 Commentary for the Standard for Cold-formed Steel Framing-Prescriptive Method for One or Two Family Dwellings[S]
[71]刘立新.砌体结构[M].武汉:武汉工业大学出版社,2001
[72]Prescriptive method for residential cold-formed steel framing[S].North American Steel Framing Alliance(NASFA).Year 2000 Edition.
[73]石宇.低层冷弯薄壁型钢结构住宅组合墙体抗剪承载力研究[D].西安:长安大学,2005
[74]聂少锋.冷弯型钢墙架柱组合墙体抗剪承载力简化计算方法研究[D].西安:长安大学,2006
[75]Serrette R.L.,Khanh C.Estimating Drift in Cold-Formed Steel Frame Structures[C].Proceedings of the 2006 Structures Congress,2006:1-11
[76]Chen C.Y.,Okasha A.F.,Rogers C.A.Analytical Predictions of Strength and Deflection of Light Gauge Steel Frame/Wood Panel Shear Walls[C].The International Conference on Advances in Engineering Structures,Mechanics and Construction.Universtiy of Waterloo,Ontario,Canada.2006:381-391.
[77]聂少锋,周天华,周绪红等.冷弯型钢组合墙体抗剪承载力简化计算方法研究[J].西安建筑科技大学学报,2007,39(5):598-604
[78]GB50018-2002,冷弯薄壁型钢结构技术规程[S].北京:中国建筑工业出版社,2002
[79]周学军,王敦强.钢与混凝土组合结构设计与施工[M].山东:山东科学技术出版社,2003
[80]北京金土木软件技术有限公司.SAP2000中文版使用指南[M].北京:人民交通出版社,2006
[81]《轻型钢结构设计手册》编辑委员会.轻型钢结构设计手册[M]北京:中国建筑工业出版社,2006
[82]周绪红.冷弯薄壁型钢结构住宅组合墙体抗剪试验研究报告[R].西安:长安大学,2007
[83]GB/T228-2002,金属材料-室温拉伸试验方法[S].北京:中国标准出版社,2002
[84]JGJ101-96,建筑抗震试验方法规程[S].北京:中国建筑科学研究院,1997
[85]姚谦峰,苏三庆.地震工程[M].陕西:陕西科学技术出版社,2001
[86]沈聚敏,周锡元,高小旺等.抗震工程学[M].北京:中国建筑工业出版社,2004
[87]朱伯龙,屠成松.工程结构抗震设计原理[M].上海:同济大学出版社,1994
[88]Branston A.and Boudreault F.Testing of Steel Frame/Wood Panel Shear Walls[R].Department of Civil Engineering and Applied Mechanics,McGill University,Montreal,Canada,2003.
[89]Folz B.and Filliatrault A.Cyclic Analysis of Wood Shear Walls[J].Journal of Structural Engineering, 2001,127(4):433-441
[90]Pang W.C.Rosowsky D.V.and Pei S.Evolutionary Parameter Hysteretic Model for Wood Shear Walls[J].Journal of Structural Engineering,2007,133(8):1118-1129
[91]John W.and Matthew A.Development and Application of Wood Shear Wall Reliability Model[J].Journal of Structural Engineering,2003,129(3):405-413
[92]Ahmed M.T.and Rafik Y.I.Seimic Response of Light-Frame Wood Buildings[J].Journal of Structural Engineering,1997,123(11):1470-1477
[93]Corte G.D.,Fiorino L.,Landolfo R.Seismic Behavior of Sheathed Cold-Formed Structures:Numerical Study.Journal of Structural Engineering,2006,132(4):558—569
[94]Landolfo R.,Fiorino L.,Corte G.D.Seismic Behavior of Sheathed Cold-Formed Structures:Physical Tests.Journal of Structural Engineering,2006,132(4):570-581
[95]黄炜.密肋复合墙体抗震性能及设计理论研究[D].西安:西安建筑科技大学,2004
[96]袁泉.密肋壁板轻框结构非线性地震反应分析[D].西安:西安建筑科技大学,2003
[97]董军,夏冰青,马宏.NAFCLCFC板及其与轻钢龙骨自攻螺栓连接性能[J].南京工业大学学报,2002,24(5):12-15
[98]Fan L.X.,Rondal J.and Cescotto S.Numerical Simulation of Lap Screw Connections[J].Thin-Walled Structures,1997 (29):235-241
[99]AISI TS-4-02,Standard Test Methods for Determining the Tensile and Shear Strength of Screws[S].
[100]F(?)l(?)p L.A.and Dubina D.Design Criteria for Seam and Sheeting-to-Framing Connections of Cold-Formed Steel Shear Panels[J].Journal of Structural Engineering,2006,132(4):582-590
[101]Raffaele L.Shear Behavior of Connections between Cold-formed Steel Profiles and Wood or Gypsum-based Panels:an Experimental Investigation[C].Proceedings of the Structures Congress and Exposition,2006,Structures Congress 2006:48
[102]徐培福,戴国莹.超限高层建筑结构基于性能抗震设计的研究[J].土木工程学报,2005,38(1):1-10
[103]Bommer J.J.Displacement Spectra for Seismic Design[J].Journal of Earthquake Engineering,1993,3(1):1-32
[104]周绪红,李艳敏,石宇等.竖向荷载作用下冷弯薄壁型钢墙架柱的承载力[J].建筑科学与工程学报,2006,23(3):7-13
[105]陈绍蕃.卷边槽钢的局部相关屈曲和畸变屈曲[J].建筑结构学报,2002,23(1):27-31.
[106]李云贵,邵弘,田志昌等.多层、高层建筑结构弹塑性动力、静力分析[J].建筑结构学报,2002,23(5):56-62
[107]李明昊.高层建筑结构的非线性时程分析[J].四川建筑2006,26 (1):119-121
[108]张雪姣.轻钢龙骨体系住宅抗震性能研究[D].南京:南京工业大学,2005
[109]魏琏等.抗震设计手册[M].中国建筑科学研究院工程抗震研究所,1985年
[110]Kasal B.J.,Leichti and Itani R.Y.Nonlinear finite-element model of complete light-frame wood structures[J].Journal of Structural Engineering,1994,120(1):100-119
[111]程海江.轻型木结构房屋抗震性能研究[D].上海:同济大学,2007
[112]汪梦甫,沈蒲生.钢筋混凝土高层结构非线性地震反应分析现状[[J].世界地震工程,1998
[113]Swanson Analysis Systems.Element Reference[M].SAS Inc.:Canonsburg USA,1999
[114]黄宗明.结构地震反应时程分析中的阻尼研究[D].重庆:重庆大学,1995
[115]Leger P.,Dussault S.Seismic-Energy Dissipation MDOF Structures,J.Strue.Energ[J].ASCE,118(5),1992
[116]董军,邓洪洲,王肇民.结构动力分析阻尼模型研究[J].世界地震工程,2000,16(4):63-69
[117]Clough C.W.,Penzien J.Dynamics of Structures[M].Second edition.McGram-Hill,Inc,1993
[118]李田.结构时程动力分析中的阻尼研究[J].土木工程学报,1997,30(3):68-73.
[119]韦定国,王清敏,前国芳等.工程结构抗震[M].北京:地震出版社,1997
[120]王亚勇.建筑结构时程分析法输入地震波的研究[J].建筑结构学报,1991 (2):51-60
[121]王亚勇.关于设计反应谱、时程法和能量方法的探讨[J].建筑结构学报,2000,21 (1):21-28
[122]邓军,唐家祥.时程分析法输入地震记录的选择与实例[J].工业建筑,2000,30 (8):9-12
[123]杨溥,李英民,赖明.结构时程分析法输入地震波的选择控制指标[J].土木工程学报,2000,33(6):33-37
[124]胡文源,邹晋华.时程分析法中有关地震波选取的几个注意问题[J].南方冶金学院学报,2003,24 (4):25-28
[125]盛和太,喻海良.ANSYS有限元原理与工程应用实例大全[M].北京:清华大学出版社,2006
[126]周绪红,石宇等.低层冷弯薄壁型钢结构住宅体系[J].建筑科学与工程学报,2005,22(2):1-14
[127]Prescriptive Method for Residential Cold-formed Steel Framing[S].North American steel framing alliance year 2000 edition
[128]GB50223-2004,建筑抗震设防分类标准[S].北京:中国建筑工业出版社.2004
[129]Uang C,Bertero V.V.Evaluation of seismic energy in structures[J].Earthquake Engineering and Structural Dynamics,1990,19(2):177-190
[130]Nassar A.A.,Krawinkler H.Seismic demands for SDOF and MDOF system[R].In:Blume J A,ed.Report No.95.Standford University:Earthquake Engineering Center,1991.13-18
[131]Moehle J.P.Displacement based design of RC structure[C].In:Eerva A,ed.10~(th) world conf.on Earthquake Eng.Mexico:WECC,1992,1567-1574
[132]Priestly M.J.Displacement based design[J].In:Report No.SSRP 94/16,Structural Systems Research,1994,26-32
[133]Braccj M.,Kunnath S.K.Seismic performance and retrofit evaluation of reinforced concrete structural engineering[J].Journal of Structural Engineering,1997,123(1):29-34
[134]SEAOC Vision 2000 Committee.Performance-Based Seismic Engineering[R].Report prepared by Structure Engineering Association of California Sacramento,California,U.S.1995,10-18.
[135]Building Seismic Safty Council (BSSC).NEHRP Guide lines for the Seismic Rehabilitation of Buildings[S].FEMA273,Federal Emergency Management Agency,Washington DC,1997
[136]Building Seismic Safty Council (BSSC).NEHRP Commentary on Guidelines for the Seismic Rehabilitation of Buildings[S].FEMA273,Federal Emergency Management Agency,Washington DC,1997
[137]钱稼茹,罗文斌.静力弹塑性分析—基于性能/位移抗震设计的分析工具[J],建筑结构,2000(6):23-26
[138]王亚勇.我国2000年抗震设计模式规范基本问题研究综述[J].建筑结构学报,2000,21 (1):2-4
[139]陈耿东,李刚.基于功能的结构抗震设计中一些问题的探讨[J].建筑结构学报,2000,21(1):5-11
[140]戴国莹.建筑结构基于性能要求的抗震措施初探[J].建筑结构,2000,30(10):60-62
[141]钱稼茹,罗文斌.建筑结构基于位移的抗震设计[J].建筑结构,2001,(4):3-6
[142]田颖,钱稼茹,刘凤阁.在用RC框架结构基于位移的抗震性能评估[J].建筑结构,2001,(7):53-56
[143]马宏旺,吕西林.建筑结构基于性能抗震设计的几个问题[J].同济大学学报,2002,30 (12):1429-1434
[144]张巍,孟少平.混凝土结构基于位移的抗震能力设计[J].工程抗震,2002,3:5-9
[145]汪梦甫,周锡元.基于性能的建筑结构抗震设计[J].建筑结构,2003,(3):59-61
[146]罗文斌,钱稼茹.钢筋混凝土框架基于位移的抗震设计[J].土木工程学报,2003,(5):22-29
[147]袁波,郭子雄.基于位移的抗震性能评估方法评述[J].工业建筑,2004,34(9):6-69
[148]李晓莉,吴敏哲,郭棣.基于性能的结构抗震设计研究[J].世界地震工程,2004,20 (1):153-156
[149]李刚,程耿东.基于性能的结构抗震设计—理论、方法与应用[M].北京:科学出版社,2004
[150]Collins K.R,Wen Y.K.,Foutch D.A.Dual-level seismic design:Areliability based.Earthquake Engineering and Structure Dynamics,1996,25:1433-1467
[151]Chandler A.M.,Lam T K.Performance-based Design in EarthquakeEngineering:a Multi-disciplinary Review[J].Journal of Structural Engineering,2001,23:1525-1543
[152]Bracci J.M.,Kunnath S.K.,Reinborn A M.Seismic Performance and Retrofit Evaluation for Reinforced Concrete Structures[J].Journal of Structural Engineering,1997,123(1):3-10
[153]Priestley M.J.N.Performance based seismic design[J].Bulletin of the NewZealand National Society for Earthquake Engineering,2000,33(3):325-346
[154]Wittaker A.,Constantinou M.,Tsopelas P.Displacement Estimates for Performance-Based Seismic Design[J].Journal of Structural Engineering,1998(8):905-912
[155]屈成忠,谢礼立.基于性态的砌块砌体结构极限性态目标位移确定方法的研究[J].地震工程与工程振动,2003,23(2):18-25
[156]郭子雄,吕西林,王亚勇.建筑结构在罕遇地震下弹塑性变形验算的讨论[J].工程抗震,1999(1):13-18
[157]Mohele J.P.Displacement-based design of RC Structure subjected to earthquakes[J].Earthquake Spectra,1992,8(3):403-428
[158]Kowalsky M.J.,Priestley M.J.N.,Macrae G.A.Displacement-based design of RC bridge columns in seismic regions[J].Earthquake Engineering and Structural Dynamics,1995,24:1623-1643
[159]Paulay T.,Priestley M.J.N.著,戴瑞同等译.钢筋混凝土和砌体结构的抗震设计[M].中国建筑工业出版社.北京,1998
[160]Kilar V.and Fajfar P..Simple Push-Over Analysis of Asymmetric Buildings[J].Earthquake Engineering and Structrual Dynamic,1997(26):233-249
[161]munshi J.A.,Ghosh S.K.Analysises of Seismic Performance of a Code Designed Reinforced Concrete Building[J].Engineering Structrues,1998(20):608-616
[162]Saidii M.,Sozen M.A.Simple Nonlinear Analysis of RC Structures[J].Engineering Structrues,1981,107(5):937-951
[163]Krawinkler H.Pros and Cons of a Push-over Analysis of Seismic Performance Evaluation[J].Engineering Structures,1998.20
[164]叶燎原.结构静力弹塑性分析(Push-over)的原理和计算实例[J].建筑结构学报,2000,21(1):37-43
[165]王理.空间结构非线性静力分析的工程应用[J].建筑结构学报,2000,21(1):57-62
[166]叶献国.多层建筑结构抗震性能的近似评估—改进的能力谱方法[J].工程抗震,1998,4:11-14
[167]Bertero V.V.Strength and deformation capacities of buildings under extreme environments,In:Structrual Engineering and Structural Mechanics.Prentice-Hall:Engwood Cliffs,NJ,1977,95-102
[168]雷磊,韩小雷,郑宜.直接基于位移的抗震设计方法的研究[J].华南地震,2007,27(2):26-32
[169]杨溥,李英民,王亚勇.结构静力弹塑性分析(Push-over)方法的改进[J].建筑结构学报,2000,21(1):44-51
[170]尹华伟,汪梦甫,周锡元.结构静力弹塑性分析方法的研究和改进[J].工程力学,2003,20(4):45-49
[171]汪梦甫,周锡元.关于结构静力弹塑性分析(Pushover)方法中的几个问题[J].结构工程师,2002,(4):17-22
[172]李琪,顾荣蓉.基于位移的抗震设计中位移模式的确定[J].扬州大学学报(自然科学版),2005,8(2):65-69
[173]胡聿贤.地震工程学[M].地震出版社.北京,1988
[174]Smith K.G.Innovation in Earthquake Resistant Concrete Structure Design Philosophies:A Century of Progress Since Hennebique's Patent[J].Engineering Structures,2001,23:72-81
[175]Veletsos A.S.,Newmark N.M.Effect of inelastic behavior on the response to earthquake motions[J].Proc.And World Conf.on Earthquake Engrg.,Vol.2,Tokyo,1960:895-912
[176]Krawinkler H.,Nassar A.A.Seismic design based on ductility and cumulative damage demands and design of reinforced concrete buildings[R].New York,1992:75-86
[177]Vidic T.,Fajfar P.,Fischinger M.Constent inelastic design spectra:strength and displacement[J].Earthquake Engineering and Structure Dynamics,1994,23(5):507-521
[178]范立础,卓卫东.桥梁延性抗震设计[M].北京:人民交通出版社,2001
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |