|
[2] Kelly JM,Skinner R I, Heine A J. Mechanisms ofEnergy Absorption in 20 工业建筑 2006 年第 36 卷第 9 期 Special Devices for Use in Earthquake Resistant Structures. Bulletin of New Zealand National Society for Earthquake Engineering, 1972, 5(3) : 63-88
|
|
Yao J T P. Concept of Structure Control. Journal of the Structure Division, ASECE, 1972, 98(7) : 1567-1574
|
|
[3] Skinney R I, Kelly J M, Heine A J. Hysteresis Dampers for Earthquake Resistant Structures. Earthquake Engineering and Structural Dynamics,1975, 3: 287-296
|
|
[4] Skinney R I, Kelly J M, Heine A J, et al. Hysteresis Dampers for the Protection of Structures from Earthquakes. Bulletin of New Zealand National Society for Earthquake Engineering, 1980, 13(1) : 22-26
|
|
[5] Tyler R G. Tapered Steel Energy Dissipators for Earthquake Resistant Structures. Bulletin of New Zealand National Society for Earthquake Engineering, 1978, 11(4) : 282-294
|
|
[6] Tyler R G. Further Notes on Steel Energy-Absorbing Element for Braced Frameworks. Bulletin of New Zealand Society for Earthquake Engineering, 1985, 18(3) : 270-279
|
|
[7] Stiemer S F, Godden W G, Kelly J M. Experimental Behavior of a Special Piping System with Steel Energy Absorbers Subjected to SimulatedDifferential Seismic Input: [Report No. UCBPEERC -81 -09] . Berkeley: University of California at Berkeley, 1981
|
|
[8] Whittaker A S, Bertero V V, Thompson C L, et al. Seismic Testing of Steel Plate Energy Dissipation Devices. Earthquake Spectra, 1991, 7(4) :563-604
|
|
[9] Whittaker A S. Tentative General Requirements for the Design and Construction of Structures Incorporating Discrete Passive Energy Dissipation DevicesPPProceedings of 5th US-Japan Workshop on Improvement of Building Structural Design and Construction Practices. ATC 15-4, San Diego, CA, 1992
|
|
[10] Whittaker A Aiken, I Bergman D, Clark P, et al. Code Requirements for the Design and Implementation of Passive Energy Dissipation Systems PPProceedings of ATC -17 -1 on Seismic Isolation, Passive Energy Dissipation and Active Control. 1993: 497-508
|
|
[11] Tsai K C, Hong C P. Steel Triangular Plate Energy Absorber for Earthquake Resistant BuildingsPPProceedings of 1st World Congress on Constructional Steel Design. Mexico: 1992
|
|
[12] Tsai K C, Chen H W,Hong C P, et al. Design ofSteelTriangular Plate Energy Absorbers for Seismic-Resistant Construction. Earthquake Spectra, 1993, 9(3) : 505-528
|
|
[13] Brown A P, Aiken I D, Jafarzadeh F J. Buckling Restrained Braces Provide the Key to the Seismic Retrofit of the Wallace Bennett Federal Building. Modern Steel Construction, 2001: 29-37
|
|
[14] 汪家铭, 中岛正爱. 屈曲约束支撑体系的应用与研究进展.建筑钢结构进展, 2005(1) : 1-13
|
|
[15] 王光远. 高耸结构风控制PP 高耸结构学术交流会论文集. [出版地不详] . 1980
|
|
[16] 高健章, 叶瑞孝. 含金属消能片斜撑之研究. 中国土木水利学刊, 1995, 7(1)
|
|
[17] 欧进萍, 吴. 组合钢板耗能器一种型耗能减震装置.地震工程与工程振动,1997(3) : 32-39
|
|
[18] 周, 刘. 圆环耗能器的试验研究.世界地震工程, 1996,12(4)
|
|
[19] 周, 刘. 双环软钢能器的试验究. 地震工程与工程动, 1999(6) : 117-123
|
|
[20] 周, 刘.加劲圆环耗能器性能的试验研究.地震工程与工程振动, 1999(9) : 115-120
|
|
[21] 邢书涛, 郭. 一种新型软钢阻尼器力学性能和减震效果的研究. 地震工程与工程振动, 2003(12) : 179-186
|
|
[22] 李玉顺, 大井谦一, 沈世钊. 钢框架结软钢阻尼器振动控制的试验及理论研究. 建筑结构学报, 2004(4) : 1-7
|
|
[23] WhittakerA S, Bertero V V, Alonson L J, et al. Earthquake Simulator Testing of Steel Plate Added Damping and Stiffness Elements: [Report UECPEERC-89P02] . Berkeley: Earthquake Engineering Research Center, University of California at Berkeley, 1989
|
|
[24] Tena-Colunga A. Mathematical Modeling of the ADAS Energy Dissipation Device. Engineering Structures, 1997, 19(10) : 811-821
|
|
[25] Dargush G F, Soong T T. Behavior ofMetallic Plate Dampers in Seismic Passive Energy Dissipation System. Earthquake Spectra, 1995, 11(4) :545-568
|
|
[26] Krieg R D. A Practical Two Surface Plasticity Theory. J. Appl. Mech. , ASME, 1975
|
|
[27] Banerjee P K, Wison R B, Raveendra S T. Advanced Applications of BEM to Three-Dimentional Problems ofMonotonic and Cyclic Plasticity.Int. J. Mech Sci,1987, 29(9) : 637-653
|
|
[28] Tsai C S, Tsai K C. TPEA Device as Seismic Damper for High-Rise
|
|
Buildings. Journal of Engineering Mechanics, ASCE, 1994, 121 (10) :1075-1081
|
|
[29] 高梨晃一, 大井谦一. 铁骨建物 N 地震应答测(第 1 部分) .生产研究, 1996,35(9)
|
|
[30] 李冀龙, 欧进萍. X 型和三角形钢阻尼器阻尼模型 (? ) .世界地震工程, 2004(3) : 10-16
|
|
[31] 李冀龙, 欧进萍. X 型和三角形钢阻尼器阻尼模型 ( ) .世界地震工程, 2004(6) : 129-133
|
|
[32] 李玉顺, 大井谦一, 沈钊. 极低屈服软钢阻尼器复力模型的研究. 世界地震工程, 2004(6) : 142-145
|
|
[33] Yamanouchi H. Performance-Based Engineering for Structural Design of Building. Building Research Institute,2000
|
|
[34] MedhekarM S, Kennedy D T L. Displacemen-t Based Seismic Design of Building-Theory. Engineering Structures, 2000, 22: 201-209
|
|
[35] Park Y J, Ang A H S. Mechanistic Seismic Damage Method for Reinforced Concrete. Journal of Structure Engineering, 1985(4) : 772-739
|
|
[36] SEAOC Vision 2000 Committee. Performance-Based Seismic Engineering.Report Prepared by Structural Engineering Association of California,Sacramento, California,U. S. A,1995
|
|
Applied Technology Council. Seismic Evaluation and Retrofit ofConcrete Building. ATC-40, Redwood City,1996
|
|
[38] FEMA273, FEMA274. NEHRP Commentary on the Guidelines for the Rehabilitation of Building. Federal Emergency Management Agency,Washington D. C, 1996
|
|
[39] FEMA450. NEHRP Recommended Provisions for Seismic Regulations for New Buildings and Other Structures. Building Seismic Safety Council,National Institute of Building Sciences, Washington, D. C,2004
|
|
[40] 日建筑学会. 钢筋 } 造建物 N 韧性保型耐震设计指针(案) . 同解说, 1997
|
|
[41] GB 50011-2001 建筑抗震设计规范
|
登录
注册
E-alert
登录
注册
E-alert
点击查看大图
下载:
