型钢混凝土边框柱密肋复合墙体试验分析及抗震设计方法研究
|
摘要
型钢混凝土边框柱密肋复合墙结构是以密肋复合墙结构为基础而派生的又一新型结构型式,是密肋复合墙结构研究的延续与深入。通过密肋复合墙体与隐形型钢混凝土框架结合,在保持原有密肋复合墙结构诸多优点的基础上,发挥型钢混凝土隐形边框柱承载力高、抗震性能好的特点,改善密肋复合墙结构的受力性能,对于该结构在中高层的应用将产生重要的作用。本文以型钢混凝土边框柱密肋复合墙体为研究对象,通过试验研究、有限元计算、理论分析,对墙体的受力机理、破坏模式、抗震性能、协同工作性能、极限承载能力以及抗震设计方法等进行了较为详细的研究,主要研究内容及成果概括如下:
(1)通过对三榀型钢混凝土边框柱密肋复合墙体的拟静力试验,分析墙体的受力特点、破坏形态、承载能力、延性、耗能以及变形等抗震性能。以试验为基础,研究墙体在水平及竖向荷载作用下的受力机理。
(2)根据型钢混凝土边框柱密肋复合墙体的受力特性,研究墙体在竖向及水平荷载作用下的协同工作性能。提出墙体在竖向荷载作用下的弹性地基梁力学模型及在水平荷载作用下的夹层复合结构力学模型,根据变形协调原理,建立结构平衡微分方程,进而求解结构的内力表达式,定量给出边框柱与复合墙板承担竖向及水平荷载的比例关系,并对其影响因素进行了分析。
(3)采用分离式三维实体模型,建立墙体的非线性三维有限元计算模型,并将有限元分析结果与试验研究进行了对比验证。利用该有限元模型,分析墙体在水平荷载作用下边框梁柱、肋梁柱的受力及变形特性,并研究在竖向荷载作用下墙体中边框柱、肋柱、填充砌块应变分布情况。
(4)通过试验及有限元分析,对影响型钢混凝土边框柱密肋复合墙体轴压极限承载力的因素进行了分析;重点研究型钢混凝土边框柱受力机理与作用,提出边框柱混凝土及型钢承载力利用系数;并根据数值分析结果提出墙体在轴压下的整体稳定系数;最终提出了型钢混凝土边框柱密肋复合墙体轴压下的极限承载力计算公式。
(5)依据最小耗能原理提出型钢混凝土边框柱密肋复合墙体开裂荷载计算方法。根据试验及有限元分析,就影响墙体斜截面抗剪极限承载力的因素进行了讨论,并根据数值分析结果提出各组件相应的抗剪承载力计算公式,并最终提出型钢混凝土边框柱密肋复合墙体斜截面极限承载力计算公式。
(6)以应变平截面假定为基础,对型钢混凝土边框柱密肋复合墙体正截面极限承载力进行研究,建立墙体正截面压弯承载力实用计算公式。
(7)针对型钢混凝土边框柱密肋复合墙体结构的特点,采用数值计算的方法确定型钢混凝土边框柱密肋复合墙体的屈服曲率和极限曲率,建立该复合墙曲率延性比和位移延性比的关系,分析影响该复合墙体延性的影响因素,并结合工程实际提出了型钢混凝土边框柱密肋复合墙体的轴压比限值。
(8)结合试验研究,给出型钢混凝土边框柱密肋复合墙体弹性层间位移角及弹塑性层间位移角限值,提出型钢混凝土边框柱密肋复合墙体抗震设计方法,并根据型钢混凝土边框柱密肋墙体结构的特点,提出了相应的施工构造要求。
Multi-ribbed composite wall with steel concrete frame column is one new structure type, which is based on the multi-ribbed composite wall structural, and is continuous and further research for the multi-ribbed composite wall structure. By the combination of multi-ribbed composite wall and concealed steel side frame column, the wall could keep the many advantages of the multi-ribbed wall; give full play of the characteristics of steel concrete side frame column with good bearing capacity and seismic performance. Meanwhile, the wall would improve the mechanical behavior of multi-ribbed composite wall and play the important role of the multi-ribbed composite wall in the application of middle-high building. In the paper the multi-ribbed composite wall with steel concrete side column would be researched and by the experiment, nonlinear FEM calculation, theory analysis, the stress mechanism, failure mode, seismic behavior, performance of cooperation work and ultimate bearing capacity of the wall have been detailed study. The main research contents and achievements are summarized as follows:
(1) By the pseudo-static test of three multi-ribbed composite wall with steel concrete side frame column, the stress feature, failure pattern, bearing capacity, ductility, energy dissipation and deformation of the wall is analyzed. On the basis of experiment, the paper studies the stress mechanism of the wall on the vertical and horizontal load.
(2) According to the mechanical characteristics of the multi-ribbed composite wall with steel concrete side frame column, the cooperation work performance of the wall in vertical and horizontal load is studied, further the paper puts forward the elastic foundation beam mechanical model in vertical load and the sandwich composite structural mechanical model in horizontal load. Based on the deformation compatibility principle, a balancing differential equation is established. By solving the equation, the proportion relation of bearing the vertical and horizontal between the side frame column and the composite wall is given. Moreover, theses influencing factors are analyzed.
(3) The nonlinear FEM model is established for the wall, using the supranational three-dimensioned solid model, and the analysis results of the FEM and the experimental researches are contrast verification. By using the FEM model, the stress and deformation characteristics of side frame beam, column, ribbed beam and column is analyzed in lateral load and the strain distribution of the side column, ribbed column and filler block is studied in vertical load.
(4) By the analysis of experiment and FEM, the factors which influence the axial compression ultimate bearing capacity are studied. The mechanism and role of steel concrete side frame column are mainly studied and the bearing capacity utilization coefficients of the side frame column concrete and the section steel are put forward. According to the numerical simulation results about the wall integral stability coefficient under the axial compression, finally the ultimate bearing capacity calculation equation of the steel concrete side frame column is put forward.
(5) Based on the least energy consumption principle, the calculation method of steel concrete side frame column about the cracking load is proposed By the analysis of experiment and FEM models, the factors which influence the oblique section bearing capacity are researched. According to the numerical simulation results, the shear strength equations of each component are discussed, finally the equation of oblique section ultimate bearing capacity of the multi-ribbed composite wall with steel concrete frame column are put forward.
(6) Based on the stress plain section assumption, the ultimate flexural strength of the wall is studied and the practical calculation equation of normal section ultimate compression bending bearing capacity is established.
(7) According to the features of multi-ribbed composite wall with steel concrete side frame column, the yield curvature and ultimate curvature for the wall is derived by numerical calculation, the curvature and displacement ductility ration are established and all kind of factors influencing the ductility of the composite wall are analyzed. Based on the engineering practice, the limit value of axial compression ration of the wall is put forward.
(8) Based on the experimental research, this paper puts forward the elastic and plastic floor displacement angle limit value of multi-ribbed composite wall with steel concrete side frame column and the seismic design method of the wall. Meanwhile, according to the characteristics of multi-ribbed composite wall with steel concrete side frame column, the relevant construction requirements are put forward.
(1)通过对三榀型钢混凝土边框柱密肋复合墙体的拟静力试验,分析墙体的受力特点、破坏形态、承载能力、延性、耗能以及变形等抗震性能。以试验为基础,研究墙体在水平及竖向荷载作用下的受力机理。
(2)根据型钢混凝土边框柱密肋复合墙体的受力特性,研究墙体在竖向及水平荷载作用下的协同工作性能。提出墙体在竖向荷载作用下的弹性地基梁力学模型及在水平荷载作用下的夹层复合结构力学模型,根据变形协调原理,建立结构平衡微分方程,进而求解结构的内力表达式,定量给出边框柱与复合墙板承担竖向及水平荷载的比例关系,并对其影响因素进行了分析。
(3)采用分离式三维实体模型,建立墙体的非线性三维有限元计算模型,并将有限元分析结果与试验研究进行了对比验证。利用该有限元模型,分析墙体在水平荷载作用下边框梁柱、肋梁柱的受力及变形特性,并研究在竖向荷载作用下墙体中边框柱、肋柱、填充砌块应变分布情况。
(4)通过试验及有限元分析,对影响型钢混凝土边框柱密肋复合墙体轴压极限承载力的因素进行了分析;重点研究型钢混凝土边框柱受力机理与作用,提出边框柱混凝土及型钢承载力利用系数;并根据数值分析结果提出墙体在轴压下的整体稳定系数;最终提出了型钢混凝土边框柱密肋复合墙体轴压下的极限承载力计算公式。
(5)依据最小耗能原理提出型钢混凝土边框柱密肋复合墙体开裂荷载计算方法。根据试验及有限元分析,就影响墙体斜截面抗剪极限承载力的因素进行了讨论,并根据数值分析结果提出各组件相应的抗剪承载力计算公式,并最终提出型钢混凝土边框柱密肋复合墙体斜截面极限承载力计算公式。
(6)以应变平截面假定为基础,对型钢混凝土边框柱密肋复合墙体正截面极限承载力进行研究,建立墙体正截面压弯承载力实用计算公式。
(7)针对型钢混凝土边框柱密肋复合墙体结构的特点,采用数值计算的方法确定型钢混凝土边框柱密肋复合墙体的屈服曲率和极限曲率,建立该复合墙曲率延性比和位移延性比的关系,分析影响该复合墙体延性的影响因素,并结合工程实际提出了型钢混凝土边框柱密肋复合墙体的轴压比限值。
(8)结合试验研究,给出型钢混凝土边框柱密肋复合墙体弹性层间位移角及弹塑性层间位移角限值,提出型钢混凝土边框柱密肋复合墙体抗震设计方法,并根据型钢混凝土边框柱密肋墙体结构的特点,提出了相应的施工构造要求。
Multi-ribbed composite wall with steel concrete frame column is one new structure type, which is based on the multi-ribbed composite wall structural, and is continuous and further research for the multi-ribbed composite wall structure. By the combination of multi-ribbed composite wall and concealed steel side frame column, the wall could keep the many advantages of the multi-ribbed wall; give full play of the characteristics of steel concrete side frame column with good bearing capacity and seismic performance. Meanwhile, the wall would improve the mechanical behavior of multi-ribbed composite wall and play the important role of the multi-ribbed composite wall in the application of middle-high building. In the paper the multi-ribbed composite wall with steel concrete side column would be researched and by the experiment, nonlinear FEM calculation, theory analysis, the stress mechanism, failure mode, seismic behavior, performance of cooperation work and ultimate bearing capacity of the wall have been detailed study. The main research contents and achievements are summarized as follows:
(1) By the pseudo-static test of three multi-ribbed composite wall with steel concrete side frame column, the stress feature, failure pattern, bearing capacity, ductility, energy dissipation and deformation of the wall is analyzed. On the basis of experiment, the paper studies the stress mechanism of the wall on the vertical and horizontal load.
(2) According to the mechanical characteristics of the multi-ribbed composite wall with steel concrete side frame column, the cooperation work performance of the wall in vertical and horizontal load is studied, further the paper puts forward the elastic foundation beam mechanical model in vertical load and the sandwich composite structural mechanical model in horizontal load. Based on the deformation compatibility principle, a balancing differential equation is established. By solving the equation, the proportion relation of bearing the vertical and horizontal between the side frame column and the composite wall is given. Moreover, theses influencing factors are analyzed.
(3) The nonlinear FEM model is established for the wall, using the supranational three-dimensioned solid model, and the analysis results of the FEM and the experimental researches are contrast verification. By using the FEM model, the stress and deformation characteristics of side frame beam, column, ribbed beam and column is analyzed in lateral load and the strain distribution of the side column, ribbed column and filler block is studied in vertical load.
(4) By the analysis of experiment and FEM, the factors which influence the axial compression ultimate bearing capacity are studied. The mechanism and role of steel concrete side frame column are mainly studied and the bearing capacity utilization coefficients of the side frame column concrete and the section steel are put forward. According to the numerical simulation results about the wall integral stability coefficient under the axial compression, finally the ultimate bearing capacity calculation equation of the steel concrete side frame column is put forward.
(5) Based on the least energy consumption principle, the calculation method of steel concrete side frame column about the cracking load is proposed By the analysis of experiment and FEM models, the factors which influence the oblique section bearing capacity are researched. According to the numerical simulation results, the shear strength equations of each component are discussed, finally the equation of oblique section ultimate bearing capacity of the multi-ribbed composite wall with steel concrete frame column are put forward.
(6) Based on the stress plain section assumption, the ultimate flexural strength of the wall is studied and the practical calculation equation of normal section ultimate compression bending bearing capacity is established.
(7) According to the features of multi-ribbed composite wall with steel concrete side frame column, the yield curvature and ultimate curvature for the wall is derived by numerical calculation, the curvature and displacement ductility ration are established and all kind of factors influencing the ductility of the composite wall are analyzed. Based on the engineering practice, the limit value of axial compression ration of the wall is put forward.
(8) Based on the experimental research, this paper puts forward the elastic and plastic floor displacement angle limit value of multi-ribbed composite wall with steel concrete side frame column and the seismic design method of the wall. Meanwhile, according to the characteristics of multi-ribbed composite wall with steel concrete side frame column, the relevant construction requirements are put forward.
引文
[1-1]姚谦峰,陈平,张荫等.密肋壁板轻框结构节能住宅体系研究.工业建筑,2003,33(1)
[1-2]赵鸿铁.钢与混凝土组合结构北京:科学出版社,2001.
[1-3] 叶列平,方鄂华.型钢混凝土构件的受力性能研究综述.土木工程学报.2000,33(5)
[1-4]姚谦峰、贾英杰、密肋壁板结构十二层1/3比例房屋模型抗震性能试验研究,土木工程学报,2004,37(6)
[1-5]王爱民.中高层密肋壁板结构密肋复合墙体受力性能及设计方法研究.博士学位论文,西安:西安建筑科技大学,2006.6
[1-6]姚谦峰、黄炜.密肋复合墙体受力机理及抗震性能试验研究,建筑结构学报,2004,25(6)
[1-7] 周铁刚,姚谦峰,黄炜等.新型复合墙体在竖向荷载作用下的承载力研究.工业建筑,2002,35(8)
[1-8]周铁钢.多层密肋壁板结构受力性能分析及实用设计方法研究.硕士学位论文,西安:西安建筑科技大学,2002
[1-9]袁泉.高层轻板框架振动台试验研究.博士学位论文,西安:西安建筑科技大学,2003.6
[1-10] Yuan Quan,Yao Qianfeng and Jia Yingjie.Study on Hysteretic Model and Damage Model of Multi-ribbed Composite Wall.International Symposium On Environmental Ecology and Technology of Concrete[C],2005.
[1-11] Jia Yingjie,Yuan Quan,Yao Qianfeng.Research on Shear Resistant Capacity and Reliability of Multi-ribbed Composite Wall in High-rise Building.International Symposium On Environmental Ecology and Technology of Concrete[C],2005.
[1-12]贾英杰.高层密肋壁板结构计算理论及设计方法研究.博士学位论文,西安:西安建筑科技大学,2004.1
[1-13]喻磊.密肋复合墙板框格单元的受力机理及弹塑性损伤模型研究.博士学位论文,西安:西安建筑科技大学,2006.6
[1-14]黄炜.密肋复合墙体抗震性能及设计理论研究.博士学位论文,西安:西安建筑科技大学,2005 05
[1-15]王爱民,吴敏哲,姚谦峰.密肋复合墙板结构有限元分析模型比较研究.西安建筑科技大学学报,2005,37(4):478-453
[1-16]王爱民,姚谦峰,吴敏哲.中高层密肋壁板结构弯剪受力性能有限元分析.工业建筑,2005,35(4)
[1-17]田英侠、陈平等,密肋复合墙板等效弹性常数计算方法研究,工业建筑,2003,33(1):121-26
[1-18] H.G.Harris,G.R.Ballouz.Preliminary studies in seismic retrofitting of lightly reinforced concrete frames using masonty infills.Proc.6th North American Masonty Confl.,Philadephia,Pennsylvania,2,383-395(1993)
[1 - 19] Smith,B.S.Behavior of square infilled flames.Journal of structure divison,ASCE,92(1)
[1-20] Liauw,T.C.An approximate method of analysis for infilled frames with or without opening.Building Science,1972 (7)
[1-21] Thiruvengadam,V.On the natural frequencies of infilled frames.Earthquake Engrg.Struct.Dyn.,1985(13)
[1-22] Dawe,J.L.and Seah,C.K.Behaviour of masonty infilled steel frames.Can.J.civ.Engrg.,1989a(16)
[1-23] Lotfi,H.R.and Shing,P.B.An appraisal of smeared crack models for masonry shear wall analysis.Comp.and Struct,1991,41(3)
[1-24] May,I.M.and Naji,J.H.Nonlinear analysis of infilled frames under monotonic and cyclic loading.Comp.and Struct.,1991,38(2)
[1-25] Shabrawi,A.and Verdel,T.Modelling of ancient masonty structures by the distinct element method under dynamic loads.Structural studies of historical buildings,1995(4)
[1-26] Ke,T.C.Simulated testing of two dimensional heterogeneous and discontinuous rock masses using discontinuous deformation analysis,PhD,Dept.of civ.Engrg.,University of California,Berkeley,Calif.,1993
[1-27] Drysdale,R.G.,Hamid,A.A.Masonty structures.Behavior and Design,2ndED.The Masonty Society.1999
[1-28] Fatal,S.G.Research plan for masonry shear walls.National Institute of Standards and Technology,Gaithersburg,MD 1993
[1-29] Shing,P.B.,Schuller,M.Flexural and shear response of reinforced masonry walls ACI Structural Journal,1990,87(6)
[1-30] Magenes,G.and Calvi,G.M.Plan seismic response of brick masonry walls.Earthquake Engineering and structural Dynamics,1997(26)
[1-31]蔡勇,施楚贤.砌体在剪-作用下抗剪强度研究.建筑结构学报,2004,25(5)
[1-32] Tomazevic,M.and Lutman,M.Seismic resistance of reinforced masonry walls.Procceding.9th World Conference on Earthquake Engineering.Ⅵ,Tokyo-Kyoto,Japan,1998
[1-33] Tomazevic,M.Earthquake-resistant design of masonry buildings.Imperial College press London,1999
[1-34] Tomazevic,M.,Lutman,M.Seismic behavior of masonry walls:Experimental Simulation.Journal of Structural Engineering.1996.9
[1-35] Seah,C.K.Univerdal approach for the analysis and design of masonty infilled frame structures,Ph.D.,University of New Brunswick,Frederiction,N.B.,Canada,1998
[1-36] EI-Dakhakhni,W.W.,Elgaaly,M.Three-strut model for concrete masonry-infilled steel frames.Journal of Structural Engineering,ASCE,2003(129)
[1-37]姜维山等.SRC短柱在轴力和反复水平力作用下的抗剪强度与变形性能试验研.西安冶金建筑学院学报,1998(4)
[1-38]李向民,张誉,型钢高强混凝土柱的轴压比限值.建筑结构.1999,7
[1-39]张素芳.SRC框架短柱在低周反复荷载作用下的延性.西南交通大学学报.1990(2)
[1-40]陈宗梁,张誉,李向民,型钢高强混凝土柱合理用钢量的研究.建筑结构.1999,7
[1-41]赵世春.劲性钢筋混凝土构件基本受力行为的研究.博士学位论文,成都:西南交通大学,1993
[1-42]中华人民共和国行业标准:型钢混凝土组合结构技术规程,北京:建筑工业出版社,2001.
[1-43]梁书亭.丁丈钧,陆勤.RC内理工字钢柱铰的抗震性能研究.建筑结构.1994,2
[1-44]叶列平,方鄂华.型钢混凝土构件的受力性能研究综述.土木工程学报,2000(10)
[1-45]程文瀼,陈忠范.钢管混凝土柱轴压比限值的试验研究.建筑结构学报,1999(4)
[1-46]叶列平,方鄂华.型钢混凝土柱的轴压力限值.建筑结构学报,1997,18(5)
[1-47]孙苍柏.型钢高强度混凝土柱抗震性能的研究.硕士学位论文,西安:西安建筑科技大学,2004.10
[1-48]蒋东红,王连广.高强型钢混凝土柱的抗剪承载力计算.东北大学学报(自然科学版),2001(10)
[1-49]贾金青,徐世,赵国藩.配箍率对型钢高强混凝土短柱轴压力系数限值影响的试验研究.土木工程学报,2002(12)
[1-50]刘航,蓝宗建,庞同和.劲性钢筋混凝土低剪力墙抗震性能试验研究.工业建筑,1997(5)
[1-51]卞延彬,苏幼坡,李淑春.轻型钢混凝土剪力墙延性的非线性有限元分析.地震工程与工程振动,2005(6)
[1-52]黄雄军,赵世春.带劲性钢筋混凝土边框低剪力墙的试验研究.西南交通大学学报,1999(10)
[1-53]刘凡.劲性钢筋混凝土低矮剪力墙抗震性能试验研究.博士学位论文,南京:东南大学,1995.6
[1-54]陈鲤梁.劲性钢筋混凝土开洞低剪力墙抗震性能的试验研究.博士学位论文,南京:东南大学,2002.6
[1-55] 国务院批转国家建材局等部门《关于加快墙体材料革新和推广节能建筑意见的通知》[国发(1992)66号]
[2-1]姚谦峰,陈平,张荫等.密肋壁板轻框结构节能住宅体系研究.工业建筑,2003,33(1):1-5.
[2-2]姚谦峰,黄炜,田洁.密肋复合墙体受力机理及抗震性能试验研究.建筑结构学报,2004,25(6):67-74
[2-3]姚谦峰,袁泉.小高层密肋壁板轻框结构模型振动台试验研究.建筑结构学报,2003,24(1):59-63
[2-4]姚谦峰,贾英杰.密肋壁板结构十二层13比例房屋模型抗震性能试验研究.土木工程学报,2004,37(6):1-10
[2-5]王爱民.中高层密肋壁板结构密肋复合墙体受力性能及设计方法研究.博士学位论文,西安:西安建筑科技大学,2006
[2-6] 吕西林,董宇光,丁子文.截面中部配置型钢的混凝土剪力墙抗震性能研究.地震工程与工程振动,2006,26(6):101-107
[2-7]曹万林,范燕飞,张建伟等.型钢混凝土剪力墙的抗震性能研究.地震工程与工程振动,2007,27(2):81-84
[2-8]王曙光,蓝宗建.劲性钢筋混凝土开洞低剪力墙拟静力试验研究.建筑结构学报,2005,26(1):85-90
[2-9]叶列平,方鄂华.钢骨混凝土构件的受力性能研究综述.土木工程学报,2000,33(5):1~11
[2-10] Saneinejad,A.& Hobbs,B..Inelastic design of infilled frames.Journal of Structural Engineering (ASCE),1995,121 (4):634~650.
[2-11]黄炜.密肋复合墙体抗震性能及设计理论研究.博士学位论文,西安:西安建筑科技大学,2004.
[2-12]中华人民共和国国家标准.建筑抗震设计规范(GB50011-2001).北京:中国建筑工业出版社,2001
[2-13]姚谦峰、陈平.土木工程结构试验.中国建筑工业出版社.2001
[2-14]西安建筑科技大学建筑工程新技术研究所.密肋壁板轻型框架结构理论与应用研究.2000
[2-15]李忠献.工程结构试验理论与技术.天津大学出版社.2003
[2-16] Xiangdong Tong.SEISMIC BEHAVIOR OF COMPOSITE STEEL FRAME-REINFORCED CONCRETE INFILL WALL STRUCTURAL SYSTEM.University of Minnesota,2001
[2-17] Leonardo M..Massone.John W.Wallace.Load-Deformation Responses of Slender Reinforced Concrete Wall[J].ACI Structural Journal/January-February 2004
[3-1]黄炜.密肋复合墙体抗震性能及设计理论研究.博士论文,西安:西安建筑科技大学,2004.
[3-2]王爱民.中高层密肋壁板结构密肋复合墙体受力性能及设计方法研究.博士论文,西安:西安建筑科技大学,2006.
[3-3]周铁刚,姚谦峰,黄炜等.新型复合墙体在竖向荷载作用下的承载力研究.工业建筑,2002,35(8):56-59.
[3-4]季日臣,张永亮,,王军玺等.大型多纵梁矩形渡槽槽身横向结构计算.兰州交通大学学报(自然科学版),2004,123(4):45-9
[3-5]刘锡军.组合砖墙在垂直荷载下的受力分析.工业建筑,1996,26(1):35-38
[3-6]姚文娟,叶志明.不同模量理论弹性支承连续梁及框架.力学与实践,2004,26(4):37-40
[3-7]蔡四维.弹性地基梁解法.上海:上海科学技术出版社,1962.58-60.
[3-8]龙驭球,包世华.结构力学教程.北京:高等教育出版社,2001.319-325
[3-9]彭明祥,刘辉东.带转动约束的弹性支承连续梁计算.广东土木与建筑,2003(11):35-37
[3-10]何明胜,姚谦峰,黄炜等.密肋复合墙体轴压作用下受力及影响因素分析.工业建筑,2008,38(1):19-24
[3-11]姚谦峰,袁泉.小高层密肋壁板轻框结构模型振动台试验研究.建筑结构学报,2003,24(1):59-63
[3-12]姚谦峰,黄炜,田洁.密肋复合墙体受力机理及抗震性能试验研究.建筑结构学报,2004,25(6):67-74
[3-13]姚谦峰,贾英杰.密肋壁板结构十二层13比例房屋模型抗震性能试验研究.土木工程学报,2004,37(6):1-10
[3-14]黄炜,姚谦峰,章宇明.内填砌体的密肋复合墙体极限承载力计算.土木工程学报,2006,39(3):68-75
[3-15] Mehrabi,A.B.,Shing,P.B.,Schuller,M.P.& Noland,J.L..Experimental evaluation of masonry-infilled RC frames[J].Journal of Structural Engineering (ASCE),1996,122(3): 228~235
[3-16] Al-Chaar,G..&,Issa,M..Behavior of masonry infilled non-ductile reinforced concrete frames[J].J.Struct.Engrg.(ASCE),1997,123(6):1462~1469.
[3-17]杨允表,景庆新,石洞.复合材料横隔式夹层梁的分析.同济大学学报,1999,27(2):207-211
[3-18]刘润泉,石勇,朱锡.夹层复合材料的弯曲理论分析与计算方法研究.玻璃钢/复合材料,2006,6:32-38
[3-19]DBJ/T 51-43-2006.密肋壁板结构技术规程.西安:陕西省建筑标准设计办公室,2006
[4-1] Bathe K.J,Finite Element Procedures,Prentice Hall,Englewood Cliffs,New Jersey,1996
[4-2] Suidan M.,Schnobrich W.C.Finite element analysis of reinforced concrete,J.of the Structural Division,.Vol.99,1997.10
[4-3] ADINA Engineering ADINA-IN.A Program for Generation of Input Data to ADINA,1983.
[4-4] Park R,Paulay T.reinforceed Concrete Structures.A Wiley Interscience Publication,1975
[4-5]江见鲸.钢筋混凝土结构非线性有限元分析.北京:清华大学出版社,1994
[4-6] 《密肋壁板轻型框架结构理论与应用研究》.科学技术研究报告.西安建筑科技大学.2000
[4-7]尧南,王寿梅.结构分析中的非线性有限元素法.北京:北京航空学院出版社,1986
[4-8]张汝清,詹先义.非线性有限元分析.重庆:重庆大学出版社,1990
[4-9]沈聚敏,王传志.钢筋混凝土有限元与板壳极限分析.北京:清华大学出版社,1993
[4-10] R.S.H.AL-Mahaidi.Nonlinear Finite Element Analysis of Reinforced Concrete Subjected to Shear Loading.Heron.26(1 a),1981
[4-11]吕西林,金国芳,吴晓涵.钢筋混凝土结构非线性有限元理论与应用,上海:同济大学出版社.1997
[4-12] J.Houde,M.S.Mirza.A Finite Element Analysis of Shear Strength of Reinforced Concrete Beams,Shear in Reinforced Concrete,1,SP-42,ACI,Detroit,Michigan.1974
[4-13] Automatic Dynamic Incremental Nonlinear Analysis.ADINA Inc,2003
[4-14]康清梁.钢筋混凝土有限元分析.北京:中国水利水电出版社,1996
[4-15]董毓利.混凝土非线性力学基础.北京:中国建筑工业出版社,1997
[4-16] Zienkiewicz,O.C.The Finite Element Method.lMcGraw-Hill Company,London,1977
[4-17] William,K.J.University of Colorado,Boulder,(Private Communication).1982
[4-18] Bathe,K.J.and Wilson,E.J.SAP Ⅳ:.A Structural Analysis Program for Static and Dynamic Response of Linear System.University of California,Berkeley,1973
[4-19]贾英杰.中高层密肋壁板结构计算理论及设计方法研究.博士论文,西安:西安建筑科技大学,2004
[4-20]过镇海.钢筋混凝土原理.北京:清华大学出版社,1999
[4-21 ] William,K.J.,and Warnke,E.D.“Constitutive Model for the Triaxial Behavior of Concrete”,Proceedings,International Association for Bridge and Structural Engineering,.Vol.19,ISMES,Bergamo,Italy,p.174 1975
[4-22] Bathe,K.J.Finite Element Procedures in Engineering Analysis.Prentice-HallEnglewood Cliffs.1982
[4-23]朱伯龙,董振祥.钢筋混凝土非线性分析.上海:同济大学出版社,1985
[4-24] ANSYS.INC.Theory Reference,1998
[4-25]黄炜.密肋复合墙体抗震性能及设计理论研究.博士论文,西安:西安建筑科技大学,2004.
[4-26]王爱民.中高层密肋壁板结构密肋复合墙体受力性能及设计方法研究.博士论文,西安:西安建筑科技大学,2006.
[4-27]孟宏睿.生态轻质水泥基墙体材料性能及密肋复合墙体弹塑性分析模型研究.博士论文,西安:西安建筑科技大学,2007
[5-1]黄炜,姚谦峰等.内填砌体的密肋复合墙体极限承载力计算.土木工程学报,2006,39(3):68-78
[5-2]王爱民.中高层密肋壁板结构密肋复合墙体受力性能及设计方法研究.博士学位论文,西安:西安建筑科技大学,2006
[5-3]黄炜.密肋复合墙体抗震性能及设计理论研究.博士论文,西安:西安建筑科技大学,2004.
[5-4]周铁刚,姚谦峰,黄炜等.新型复合墙体在竖向荷载作用下的承载力研究..工业建筑,2002,35(8):56-59.
[5-4]杨伟军,施楚贤.灌芯配筋砌体墙体轴心受压承载力研究.建筑结构,2002,32(2):23-26
[5-5]施楚贤.砌体结构理论与设计(第二版).北京:中国建筑工业出版社,2003.
[5-6] 田瑞华.混凝土空心小砌块配筋砌体墙体的承载力试验研究与理论分析.西安建筑科技大学硕士学位论文.2001
[5-7]过镇海.钢筋混凝土原理.北京:清华大学出版社,1999
[5-8]赵鸿铁.钢与混凝土组合结构.北京:科学出版社,2001
[5-9]中华人民共和国行业标准.“型钢混凝土组合结构技术规程(JGJ 138-2001),2002
[5-10] Park R,Paulay T.reinforceed Concrete Structures.A Wiley Interscience Publication.1975
[5-11]杨伟军,施楚贤.配筋砌块砌体剪力墙抗剪承载力研究,建筑结构.2001,09
[5-12] P.B.Shing,M.Schuller,V.S.Hoskere.Flexural and Shear Response of Reinforced masonry walls.ACI.199707
[5-13]周筑宝.最小耗能原理.北京:北京:科学出版社,2001
[5-14] M.J.N Priestly.design of concrete masonry shear walls.ACI journal,January-february.1986
[5-15]王传志,滕志明.钢筋混凝土结构理论.中国建筑工业出版社.1985
[5-16]阎宝民,王腾等.混凝土砌块剪力墙斜截面抗剪承载力计算公式的研究.建筑结构.2000 03
[5-17]全成华,唐岱新.高强砌块配筋砌体剪力墙抗剪性能试验研究.建筑结构学报,2002,23(2):79-87
[5-18]董宇光,吕西林,丁子文.型钢混凝土剪力墙抗剪承载力计算公式研究.工程力学,2002,24(supl):114-118
[5-19]乔彦明,钱稼茹,方鄂华.钢骨混凝土剪力墙抗剪性能的试验研究.建筑结构,1995,25(8):3~7.
[5-20]熊立红,张敏政.设置芯柱-构造柱混凝土砌块墙体抗震剪切承载力计算.地震工程与工程振动,2004,24(2):82-87.
[5-21]杨建江,高永孚,赵彤.带构造柱加圈梁混凝土砌块砌体抗剪强度分析.建筑结构学报,1998,19(3):64-69.
[5-22] P.B.Shing,j.i.noland and e.klamerusinelastic behavour of concrete masonry shear walls.ASCE.1989
[5-23]梁建国,张望喜,郑勇强.钢筋混凝土-砖砌体组合墙抗震性能.建筑结构学报,2003,24(3):61-71
[5-24]张杰.密肋复合墙板受力性能及斜截面承载力实用设计计算方法研究.西安建筑科技大学硕士学位论文.2004
[5-25]孟宏睿.生态轻质水泥基墙体材料性能及密肋复合墙体弹塑性分析模型研究.博士学位论文,西安:西安建筑科技大学,2007
[5-26]中华人民共和国标准.“混凝土结构设计规范(GB 50010-2002)”.中国建筑工业出版社.2002
[5-27]蔡贤辉,邬瑞锋,奚肖凤等.组合砌体剪力墙的抗弯承载力.建筑结构.1999 03
[5-28] A.E.Fiorate.R.G.Oesterls.Relersing load tests of five isolated structural walls.International Symposiumon Earthquake Structural Engineering.U.S.A.Aug.1976
[5-29] Benjamin and Williams.The Behavior of one-story Reinforced Concrete Shear Walls.ASCE.ST.5 May.1957
[5-30]刘先明,李爱群等.带边框砌体剪力墙承载力和变形的计算分析.东南大学学报.2001.01
[5-31]中华人民共和国标准.“砌体结构设计规范(GB 50003-2001)”.中国建筑工业出版社.2002.
[5-32]张同亿.复合墙异型柱组合结构抗震性能及设计方法研究.博士论文,西安:西安建筑科技大学.2001
[5-33]DBJ/T51-43-2006.密肋壁板结构技术规程.西安:陕西省建筑标准设计办公室,2006
[6-1]DBJ/T 51-43-2006.密肋壁板结构技术规程.西安:陕西省建筑标准设计办公室,2006
[6-2]姚谦峰,贾英杰.密肋壁板结构十二层1/3比例房屋模型抗震性能试验研究.土木工程学报,2004,37(6):1-10
[6-3]袁泉,姚谦峰.密肋壁板轻框结构地震反应分析.工业建筑,2003,33(1):17-19
[6-4]钱稼茹,吕文,方鄂华.基于位移延性的剪力墙抗震设计.建筑结构学报,1999,20(3):42-49.
[6-5]过镇海,时旭东.钢筋混凝土原理和分析.北京:清华大学出版社,2003:187-188
[6-6]GB 50010-2002.混凝土结构设计规范.北京:中国建筑工业出版社,2002:206-207
[6-7]钟益村,王文基,田家骅.钢筋混凝土结构房屋变形性能及容许变形指标,建筑技术通讯—建筑结构,1984(3):42-46
[6-8] X.Qi and Moehle J.P.Displacement design approach for RC structures subjected to earthquakes.Report No.UCB/EERC-91/02,4-12
[6-8]童岳生,钱国芳.砖填充墙框架的变形能力及承载力,西安冶金建筑学院学报,2,1985
[6-9] NZS 4203,New Zealand Code of Practice for General Structure Design and Design Loading for Building,1984
[6-10] Uniform Building Code 1994,Volumn 2,Structure Engineering Design Provision,Int.Conf.of Bldg.Officials,Whittier,Calif,1994
[6-1]]欧洲标准委员会编,程绍革、王迪民等译.建筑结构抗震设计规定(Eurocodes8),中国建筑科学研究院抗震所印,1997
[6-12]郭子雄,吕西林,王亚勇.建筑结构抗震变形验算中层间弹性位移角限值的研讨,工程抗震,1998(2):31-35
[6-13]阎宝民,王腾等.混凝土砌块剪力墙斜截面抗剪承载力计算公式的研究.建筑结构.2000 03
[6-14]全成华,唐岱新.高强砌块配筋砌体剪力墙抗剪性能试验研究.建筑结构学报,2002,23(2):79-87
[6-15]田洁;姚谦峰;黄炜.密肋复合墙体的静力弹塑性分析.西安建筑科技大学学报(自然科学版),2005,137(3):301-306
[6-16]姚谦峰;袁泉.小高层密肋壁板轻框结构模型振动台试验研究.建筑结构学报,2003,24(1).59-63
[1-2]赵鸿铁.钢与混凝土组合结构北京:科学出版社,2001.
[1-3] 叶列平,方鄂华.型钢混凝土构件的受力性能研究综述.土木工程学报.2000,33(5)
[1-4]姚谦峰、贾英杰、密肋壁板结构十二层1/3比例房屋模型抗震性能试验研究,土木工程学报,2004,37(6)
[1-5]王爱民.中高层密肋壁板结构密肋复合墙体受力性能及设计方法研究.博士学位论文,西安:西安建筑科技大学,2006.6
[1-6]姚谦峰、黄炜.密肋复合墙体受力机理及抗震性能试验研究,建筑结构学报,2004,25(6)
[1-7] 周铁刚,姚谦峰,黄炜等.新型复合墙体在竖向荷载作用下的承载力研究.工业建筑,2002,35(8)
[1-8]周铁钢.多层密肋壁板结构受力性能分析及实用设计方法研究.硕士学位论文,西安:西安建筑科技大学,2002
[1-9]袁泉.高层轻板框架振动台试验研究.博士学位论文,西安:西安建筑科技大学,2003.6
[1-10] Yuan Quan,Yao Qianfeng and Jia Yingjie.Study on Hysteretic Model and Damage Model of Multi-ribbed Composite Wall.International Symposium On Environmental Ecology and Technology of Concrete[C],2005.
[1-11] Jia Yingjie,Yuan Quan,Yao Qianfeng.Research on Shear Resistant Capacity and Reliability of Multi-ribbed Composite Wall in High-rise Building.International Symposium On Environmental Ecology and Technology of Concrete[C],2005.
[1-12]贾英杰.高层密肋壁板结构计算理论及设计方法研究.博士学位论文,西安:西安建筑科技大学,2004.1
[1-13]喻磊.密肋复合墙板框格单元的受力机理及弹塑性损伤模型研究.博士学位论文,西安:西安建筑科技大学,2006.6
[1-14]黄炜.密肋复合墙体抗震性能及设计理论研究.博士学位论文,西安:西安建筑科技大学,2005 05
[1-15]王爱民,吴敏哲,姚谦峰.密肋复合墙板结构有限元分析模型比较研究.西安建筑科技大学学报,2005,37(4):478-453
[1-16]王爱民,姚谦峰,吴敏哲.中高层密肋壁板结构弯剪受力性能有限元分析.工业建筑,2005,35(4)
[1-17]田英侠、陈平等,密肋复合墙板等效弹性常数计算方法研究,工业建筑,2003,33(1):121-26
[1-18] H.G.Harris,G.R.Ballouz.Preliminary studies in seismic retrofitting of lightly reinforced concrete frames using masonty infills.Proc.6th North American Masonty Confl.,Philadephia,Pennsylvania,2,383-395(1993)
[1 - 19] Smith,B.S.Behavior of square infilled flames.Journal of structure divison,ASCE,92(1)
[1-20] Liauw,T.C.An approximate method of analysis for infilled frames with or without opening.Building Science,1972 (7)
[1-21] Thiruvengadam,V.On the natural frequencies of infilled frames.Earthquake Engrg.Struct.Dyn.,1985(13)
[1-22] Dawe,J.L.and Seah,C.K.Behaviour of masonty infilled steel frames.Can.J.civ.Engrg.,1989a(16)
[1-23] Lotfi,H.R.and Shing,P.B.An appraisal of smeared crack models for masonry shear wall analysis.Comp.and Struct,1991,41(3)
[1-24] May,I.M.and Naji,J.H.Nonlinear analysis of infilled frames under monotonic and cyclic loading.Comp.and Struct.,1991,38(2)
[1-25] Shabrawi,A.and Verdel,T.Modelling of ancient masonty structures by the distinct element method under dynamic loads.Structural studies of historical buildings,1995(4)
[1-26] Ke,T.C.Simulated testing of two dimensional heterogeneous and discontinuous rock masses using discontinuous deformation analysis,PhD,Dept.of civ.Engrg.,University of California,Berkeley,Calif.,1993
[1-27] Drysdale,R.G.,Hamid,A.A.Masonty structures.Behavior and Design,2ndED.The Masonty Society.1999
[1-28] Fatal,S.G.Research plan for masonry shear walls.National Institute of Standards and Technology,Gaithersburg,MD 1993
[1-29] Shing,P.B.,Schuller,M.Flexural and shear response of reinforced masonry walls ACI Structural Journal,1990,87(6)
[1-30] Magenes,G.and Calvi,G.M.Plan seismic response of brick masonry walls.Earthquake Engineering and structural Dynamics,1997(26)
[1-31]蔡勇,施楚贤.砌体在剪-作用下抗剪强度研究.建筑结构学报,2004,25(5)
[1-32] Tomazevic,M.and Lutman,M.Seismic resistance of reinforced masonry walls.Procceding.9th World Conference on Earthquake Engineering.Ⅵ,Tokyo-Kyoto,Japan,1998
[1-33] Tomazevic,M.Earthquake-resistant design of masonry buildings.Imperial College press London,1999
[1-34] Tomazevic,M.,Lutman,M.Seismic behavior of masonry walls:Experimental Simulation.Journal of Structural Engineering.1996.9
[1-35] Seah,C.K.Univerdal approach for the analysis and design of masonty infilled frame structures,Ph.D.,University of New Brunswick,Frederiction,N.B.,Canada,1998
[1-36] EI-Dakhakhni,W.W.,Elgaaly,M.Three-strut model for concrete masonry-infilled steel frames.Journal of Structural Engineering,ASCE,2003(129)
[1-37]姜维山等.SRC短柱在轴力和反复水平力作用下的抗剪强度与变形性能试验研.西安冶金建筑学院学报,1998(4)
[1-38]李向民,张誉,型钢高强混凝土柱的轴压比限值.建筑结构.1999,7
[1-39]张素芳.SRC框架短柱在低周反复荷载作用下的延性.西南交通大学学报.1990(2)
[1-40]陈宗梁,张誉,李向民,型钢高强混凝土柱合理用钢量的研究.建筑结构.1999,7
[1-41]赵世春.劲性钢筋混凝土构件基本受力行为的研究.博士学位论文,成都:西南交通大学,1993
[1-42]中华人民共和国行业标准:型钢混凝土组合结构技术规程,北京:建筑工业出版社,2001.
[1-43]梁书亭.丁丈钧,陆勤.RC内理工字钢柱铰的抗震性能研究.建筑结构.1994,2
[1-44]叶列平,方鄂华.型钢混凝土构件的受力性能研究综述.土木工程学报,2000(10)
[1-45]程文瀼,陈忠范.钢管混凝土柱轴压比限值的试验研究.建筑结构学报,1999(4)
[1-46]叶列平,方鄂华.型钢混凝土柱的轴压力限值.建筑结构学报,1997,18(5)
[1-47]孙苍柏.型钢高强度混凝土柱抗震性能的研究.硕士学位论文,西安:西安建筑科技大学,2004.10
[1-48]蒋东红,王连广.高强型钢混凝土柱的抗剪承载力计算.东北大学学报(自然科学版),2001(10)
[1-49]贾金青,徐世,赵国藩.配箍率对型钢高强混凝土短柱轴压力系数限值影响的试验研究.土木工程学报,2002(12)
[1-50]刘航,蓝宗建,庞同和.劲性钢筋混凝土低剪力墙抗震性能试验研究.工业建筑,1997(5)
[1-51]卞延彬,苏幼坡,李淑春.轻型钢混凝土剪力墙延性的非线性有限元分析.地震工程与工程振动,2005(6)
[1-52]黄雄军,赵世春.带劲性钢筋混凝土边框低剪力墙的试验研究.西南交通大学学报,1999(10)
[1-53]刘凡.劲性钢筋混凝土低矮剪力墙抗震性能试验研究.博士学位论文,南京:东南大学,1995.6
[1-54]陈鲤梁.劲性钢筋混凝土开洞低剪力墙抗震性能的试验研究.博士学位论文,南京:东南大学,2002.6
[1-55] 国务院批转国家建材局等部门《关于加快墙体材料革新和推广节能建筑意见的通知》[国发(1992)66号]
[2-1]姚谦峰,陈平,张荫等.密肋壁板轻框结构节能住宅体系研究.工业建筑,2003,33(1):1-5.
[2-2]姚谦峰,黄炜,田洁.密肋复合墙体受力机理及抗震性能试验研究.建筑结构学报,2004,25(6):67-74
[2-3]姚谦峰,袁泉.小高层密肋壁板轻框结构模型振动台试验研究.建筑结构学报,2003,24(1):59-63
[2-4]姚谦峰,贾英杰.密肋壁板结构十二层13比例房屋模型抗震性能试验研究.土木工程学报,2004,37(6):1-10
[2-5]王爱民.中高层密肋壁板结构密肋复合墙体受力性能及设计方法研究.博士学位论文,西安:西安建筑科技大学,2006
[2-6] 吕西林,董宇光,丁子文.截面中部配置型钢的混凝土剪力墙抗震性能研究.地震工程与工程振动,2006,26(6):101-107
[2-7]曹万林,范燕飞,张建伟等.型钢混凝土剪力墙的抗震性能研究.地震工程与工程振动,2007,27(2):81-84
[2-8]王曙光,蓝宗建.劲性钢筋混凝土开洞低剪力墙拟静力试验研究.建筑结构学报,2005,26(1):85-90
[2-9]叶列平,方鄂华.钢骨混凝土构件的受力性能研究综述.土木工程学报,2000,33(5):1~11
[2-10] Saneinejad,A.& Hobbs,B..Inelastic design of infilled frames.Journal of Structural Engineering (ASCE),1995,121 (4):634~650.
[2-11]黄炜.密肋复合墙体抗震性能及设计理论研究.博士学位论文,西安:西安建筑科技大学,2004.
[2-12]中华人民共和国国家标准.建筑抗震设计规范(GB50011-2001).北京:中国建筑工业出版社,2001
[2-13]姚谦峰、陈平.土木工程结构试验.中国建筑工业出版社.2001
[2-14]西安建筑科技大学建筑工程新技术研究所.密肋壁板轻型框架结构理论与应用研究.2000
[2-15]李忠献.工程结构试验理论与技术.天津大学出版社.2003
[2-16] Xiangdong Tong.SEISMIC BEHAVIOR OF COMPOSITE STEEL FRAME-REINFORCED CONCRETE INFILL WALL STRUCTURAL SYSTEM.University of Minnesota,2001
[2-17] Leonardo M..Massone.John W.Wallace.Load-Deformation Responses of Slender Reinforced Concrete Wall[J].ACI Structural Journal/January-February 2004
[3-1]黄炜.密肋复合墙体抗震性能及设计理论研究.博士论文,西安:西安建筑科技大学,2004.
[3-2]王爱民.中高层密肋壁板结构密肋复合墙体受力性能及设计方法研究.博士论文,西安:西安建筑科技大学,2006.
[3-3]周铁刚,姚谦峰,黄炜等.新型复合墙体在竖向荷载作用下的承载力研究.工业建筑,2002,35(8):56-59.
[3-4]季日臣,张永亮,,王军玺等.大型多纵梁矩形渡槽槽身横向结构计算.兰州交通大学学报(自然科学版),2004,123(4):45-9
[3-5]刘锡军.组合砖墙在垂直荷载下的受力分析.工业建筑,1996,26(1):35-38
[3-6]姚文娟,叶志明.不同模量理论弹性支承连续梁及框架.力学与实践,2004,26(4):37-40
[3-7]蔡四维.弹性地基梁解法.上海:上海科学技术出版社,1962.58-60.
[3-8]龙驭球,包世华.结构力学教程.北京:高等教育出版社,2001.319-325
[3-9]彭明祥,刘辉东.带转动约束的弹性支承连续梁计算.广东土木与建筑,2003(11):35-37
[3-10]何明胜,姚谦峰,黄炜等.密肋复合墙体轴压作用下受力及影响因素分析.工业建筑,2008,38(1):19-24
[3-11]姚谦峰,袁泉.小高层密肋壁板轻框结构模型振动台试验研究.建筑结构学报,2003,24(1):59-63
[3-12]姚谦峰,黄炜,田洁.密肋复合墙体受力机理及抗震性能试验研究.建筑结构学报,2004,25(6):67-74
[3-13]姚谦峰,贾英杰.密肋壁板结构十二层13比例房屋模型抗震性能试验研究.土木工程学报,2004,37(6):1-10
[3-14]黄炜,姚谦峰,章宇明.内填砌体的密肋复合墙体极限承载力计算.土木工程学报,2006,39(3):68-75
[3-15] Mehrabi,A.B.,Shing,P.B.,Schuller,M.P.& Noland,J.L..Experimental evaluation of masonry-infilled RC frames[J].Journal of Structural Engineering (ASCE),1996,122(3): 228~235
[3-16] Al-Chaar,G..&,Issa,M..Behavior of masonry infilled non-ductile reinforced concrete frames[J].J.Struct.Engrg.(ASCE),1997,123(6):1462~1469.
[3-17]杨允表,景庆新,石洞.复合材料横隔式夹层梁的分析.同济大学学报,1999,27(2):207-211
[3-18]刘润泉,石勇,朱锡.夹层复合材料的弯曲理论分析与计算方法研究.玻璃钢/复合材料,2006,6:32-38
[3-19]DBJ/T 51-43-2006.密肋壁板结构技术规程.西安:陕西省建筑标准设计办公室,2006
[4-1] Bathe K.J,Finite Element Procedures,Prentice Hall,Englewood Cliffs,New Jersey,1996
[4-2] Suidan M.,Schnobrich W.C.Finite element analysis of reinforced concrete,J.of the Structural Division,.Vol.99,1997.10
[4-3] ADINA Engineering ADINA-IN.A Program for Generation of Input Data to ADINA,1983.
[4-4] Park R,Paulay T.reinforceed Concrete Structures.A Wiley Interscience Publication,1975
[4-5]江见鲸.钢筋混凝土结构非线性有限元分析.北京:清华大学出版社,1994
[4-6] 《密肋壁板轻型框架结构理论与应用研究》.科学技术研究报告.西安建筑科技大学.2000
[4-7]尧南,王寿梅.结构分析中的非线性有限元素法.北京:北京航空学院出版社,1986
[4-8]张汝清,詹先义.非线性有限元分析.重庆:重庆大学出版社,1990
[4-9]沈聚敏,王传志.钢筋混凝土有限元与板壳极限分析.北京:清华大学出版社,1993
[4-10] R.S.H.AL-Mahaidi.Nonlinear Finite Element Analysis of Reinforced Concrete Subjected to Shear Loading.Heron.26(1 a),1981
[4-11]吕西林,金国芳,吴晓涵.钢筋混凝土结构非线性有限元理论与应用,上海:同济大学出版社.1997
[4-12] J.Houde,M.S.Mirza.A Finite Element Analysis of Shear Strength of Reinforced Concrete Beams,Shear in Reinforced Concrete,1,SP-42,ACI,Detroit,Michigan.1974
[4-13] Automatic Dynamic Incremental Nonlinear Analysis.ADINA Inc,2003
[4-14]康清梁.钢筋混凝土有限元分析.北京:中国水利水电出版社,1996
[4-15]董毓利.混凝土非线性力学基础.北京:中国建筑工业出版社,1997
[4-16] Zienkiewicz,O.C.The Finite Element Method.lMcGraw-Hill Company,London,1977
[4-17] William,K.J.University of Colorado,Boulder,(Private Communication).1982
[4-18] Bathe,K.J.and Wilson,E.J.SAP Ⅳ:.A Structural Analysis Program for Static and Dynamic Response of Linear System.University of California,Berkeley,1973
[4-19]贾英杰.中高层密肋壁板结构计算理论及设计方法研究.博士论文,西安:西安建筑科技大学,2004
[4-20]过镇海.钢筋混凝土原理.北京:清华大学出版社,1999
[4-21 ] William,K.J.,and Warnke,E.D.“Constitutive Model for the Triaxial Behavior of Concrete”,Proceedings,International Association for Bridge and Structural Engineering,.Vol.19,ISMES,Bergamo,Italy,p.174 1975
[4-22] Bathe,K.J.Finite Element Procedures in Engineering Analysis.Prentice-HallEnglewood Cliffs.1982
[4-23]朱伯龙,董振祥.钢筋混凝土非线性分析.上海:同济大学出版社,1985
[4-24] ANSYS.INC.Theory Reference,1998
[4-25]黄炜.密肋复合墙体抗震性能及设计理论研究.博士论文,西安:西安建筑科技大学,2004.
[4-26]王爱民.中高层密肋壁板结构密肋复合墙体受力性能及设计方法研究.博士论文,西安:西安建筑科技大学,2006.
[4-27]孟宏睿.生态轻质水泥基墙体材料性能及密肋复合墙体弹塑性分析模型研究.博士论文,西安:西安建筑科技大学,2007
[5-1]黄炜,姚谦峰等.内填砌体的密肋复合墙体极限承载力计算.土木工程学报,2006,39(3):68-78
[5-2]王爱民.中高层密肋壁板结构密肋复合墙体受力性能及设计方法研究.博士学位论文,西安:西安建筑科技大学,2006
[5-3]黄炜.密肋复合墙体抗震性能及设计理论研究.博士论文,西安:西安建筑科技大学,2004.
[5-4]周铁刚,姚谦峰,黄炜等.新型复合墙体在竖向荷载作用下的承载力研究..工业建筑,2002,35(8):56-59.
[5-4]杨伟军,施楚贤.灌芯配筋砌体墙体轴心受压承载力研究.建筑结构,2002,32(2):23-26
[5-5]施楚贤.砌体结构理论与设计(第二版).北京:中国建筑工业出版社,2003.
[5-6] 田瑞华.混凝土空心小砌块配筋砌体墙体的承载力试验研究与理论分析.西安建筑科技大学硕士学位论文.2001
[5-7]过镇海.钢筋混凝土原理.北京:清华大学出版社,1999
[5-8]赵鸿铁.钢与混凝土组合结构.北京:科学出版社,2001
[5-9]中华人民共和国行业标准.“型钢混凝土组合结构技术规程(JGJ 138-2001),2002
[5-10] Park R,Paulay T.reinforceed Concrete Structures.A Wiley Interscience Publication.1975
[5-11]杨伟军,施楚贤.配筋砌块砌体剪力墙抗剪承载力研究,建筑结构.2001,09
[5-12] P.B.Shing,M.Schuller,V.S.Hoskere.Flexural and Shear Response of Reinforced masonry walls.ACI.199707
[5-13]周筑宝.最小耗能原理.北京:北京:科学出版社,2001
[5-14] M.J.N Priestly.design of concrete masonry shear walls.ACI journal,January-february.1986
[5-15]王传志,滕志明.钢筋混凝土结构理论.中国建筑工业出版社.1985
[5-16]阎宝民,王腾等.混凝土砌块剪力墙斜截面抗剪承载力计算公式的研究.建筑结构.2000 03
[5-17]全成华,唐岱新.高强砌块配筋砌体剪力墙抗剪性能试验研究.建筑结构学报,2002,23(2):79-87
[5-18]董宇光,吕西林,丁子文.型钢混凝土剪力墙抗剪承载力计算公式研究.工程力学,2002,24(supl):114-118
[5-19]乔彦明,钱稼茹,方鄂华.钢骨混凝土剪力墙抗剪性能的试验研究.建筑结构,1995,25(8):3~7.
[5-20]熊立红,张敏政.设置芯柱-构造柱混凝土砌块墙体抗震剪切承载力计算.地震工程与工程振动,2004,24(2):82-87.
[5-21]杨建江,高永孚,赵彤.带构造柱加圈梁混凝土砌块砌体抗剪强度分析.建筑结构学报,1998,19(3):64-69.
[5-22] P.B.Shing,j.i.noland and e.klamerusinelastic behavour of concrete masonry shear walls.ASCE.1989
[5-23]梁建国,张望喜,郑勇强.钢筋混凝土-砖砌体组合墙抗震性能.建筑结构学报,2003,24(3):61-71
[5-24]张杰.密肋复合墙板受力性能及斜截面承载力实用设计计算方法研究.西安建筑科技大学硕士学位论文.2004
[5-25]孟宏睿.生态轻质水泥基墙体材料性能及密肋复合墙体弹塑性分析模型研究.博士学位论文,西安:西安建筑科技大学,2007
[5-26]中华人民共和国标准.“混凝土结构设计规范(GB 50010-2002)”.中国建筑工业出版社.2002
[5-27]蔡贤辉,邬瑞锋,奚肖凤等.组合砌体剪力墙的抗弯承载力.建筑结构.1999 03
[5-28] A.E.Fiorate.R.G.Oesterls.Relersing load tests of five isolated structural walls.International Symposiumon Earthquake Structural Engineering.U.S.A.Aug.1976
[5-29] Benjamin and Williams.The Behavior of one-story Reinforced Concrete Shear Walls.ASCE.ST.5 May.1957
[5-30]刘先明,李爱群等.带边框砌体剪力墙承载力和变形的计算分析.东南大学学报.2001.01
[5-31]中华人民共和国标准.“砌体结构设计规范(GB 50003-2001)”.中国建筑工业出版社.2002.
[5-32]张同亿.复合墙异型柱组合结构抗震性能及设计方法研究.博士论文,西安:西安建筑科技大学.2001
[5-33]DBJ/T51-43-2006.密肋壁板结构技术规程.西安:陕西省建筑标准设计办公室,2006
[6-1]DBJ/T 51-43-2006.密肋壁板结构技术规程.西安:陕西省建筑标准设计办公室,2006
[6-2]姚谦峰,贾英杰.密肋壁板结构十二层1/3比例房屋模型抗震性能试验研究.土木工程学报,2004,37(6):1-10
[6-3]袁泉,姚谦峰.密肋壁板轻框结构地震反应分析.工业建筑,2003,33(1):17-19
[6-4]钱稼茹,吕文,方鄂华.基于位移延性的剪力墙抗震设计.建筑结构学报,1999,20(3):42-49.
[6-5]过镇海,时旭东.钢筋混凝土原理和分析.北京:清华大学出版社,2003:187-188
[6-6]GB 50010-2002.混凝土结构设计规范.北京:中国建筑工业出版社,2002:206-207
[6-7]钟益村,王文基,田家骅.钢筋混凝土结构房屋变形性能及容许变形指标,建筑技术通讯—建筑结构,1984(3):42-46
[6-8] X.Qi and Moehle J.P.Displacement design approach for RC structures subjected to earthquakes.Report No.UCB/EERC-91/02,4-12
[6-8]童岳生,钱国芳.砖填充墙框架的变形能力及承载力,西安冶金建筑学院学报,2,1985
[6-9] NZS 4203,New Zealand Code of Practice for General Structure Design and Design Loading for Building,1984
[6-10] Uniform Building Code 1994,Volumn 2,Structure Engineering Design Provision,Int.Conf.of Bldg.Officials,Whittier,Calif,1994
[6-1]]欧洲标准委员会编,程绍革、王迪民等译.建筑结构抗震设计规定(Eurocodes8),中国建筑科学研究院抗震所印,1997
[6-12]郭子雄,吕西林,王亚勇.建筑结构抗震变形验算中层间弹性位移角限值的研讨,工程抗震,1998(2):31-35
[6-13]阎宝民,王腾等.混凝土砌块剪力墙斜截面抗剪承载力计算公式的研究.建筑结构.2000 03
[6-14]全成华,唐岱新.高强砌块配筋砌体剪力墙抗剪性能试验研究.建筑结构学报,2002,23(2):79-87
[6-15]田洁;姚谦峰;黄炜.密肋复合墙体的静力弹塑性分析.西安建筑科技大学学报(自然科学版),2005,137(3):301-306
[6-16]姚谦峰;袁泉.小高层密肋壁板轻框结构模型振动台试验研究.建筑结构学报,2003,24(1).59-63