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Performance of Steel Pipe Pile-to-Concrete Cap Connections Subject to Seismic or High Transverse Loading: Phase III Confirmation of Connection Performance.

机译：钢管桩 - 混凝土盖板连接受地震或高横向荷载的性能：第三阶段连接性能的确认。

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The efficacy of a new procedure developed by the Montana Department of Transportation (MDT) to design concrete filled steel tube (CFT) pile to concrete pile cap connections was investigated in this project. A series of CFT piles embedded in a concrete pile cap is a desirable system to support small to mid-span bridges. Traditional methods for designing the connection between the CFT piles and pile cap often lead to congested and complex reinforcing schemes, and this complexity can limit the use of this support system. MDT has developed a simple design method for this connection utilizing a new reinforcing scheme that greatly simplifies the design and construction of this connection. The new reinforcing scheme includes U-shaped reinforcing bars that encircle the embedded CFT piles within the cap that counteract the moment related demands introduced by the embedded pile under lateral load events. The efficacy of the MDT design method implementing the new reinforcing scheme, which was developed from previous research and testing completed by Montana State University, is evaluated in this research. In particular, this report presents the details and results of tests on six half-size connections designed to exercise various design parameters in the MDT design guide. In these tests four primary limit states were observed: (1) formation of a plastic hinge in the concrete-filled steel tube, (2) crushing of the concrete surrounding the embedded pile, (3) yielding of the longitudinal reinforcement, and (4) splitting failure of the concrete cap. The MDT design methodology addresses all of these limit states fairly accurately. Some possible improvements to MDT's methodology suggested by the test results are presented and discussed.

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作者
Kappes, L.; Berry, M.; Stephens, J.;
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年度 2013
页码 1-148
总页数 148
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Bridge piers; Concrete structures; Pile foundations; Construction; Design methods; Finite element method; Joints; Load tests; Methodology; Seismic design; Steels; Transverse strength;

机译：桥墩;混凝土结构;桩基;施工;设计方法;有限元法;节点;荷载试验;方法;抗震设计;钢;横向强度;

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1. 带缝钢筋混凝土高剪力墙地震动下的非线性性能(英文) [J] . 戴航, 陈忠范, 关国雄, 东南大学学报：英文版 . 1998,第001期
2. Non-linear analysis of steel-concrete composite frames with full and partial shear connection subjected to seismic loads [J] . Oreste S. Bursi, Fei-Fei Sun Journal of Constructional Steel Research . 2005,第1期

机译：钢与混凝土组合框架在地震荷载作用下的全剪力与局部剪力的非线性分析
3. Seismic Performance of Embedded Column Base Connections Subjected to Axial and Lateral Loads [J] . Grilli David, Jones Robert, Kanvinde Amit Journal of structural engineering . 2017,第5期

机译：承受轴向和横向载荷的嵌入式柱基连接的抗震性能
4. Seismic capacity of retrofitted beam-column connections in high-rise steel frames when subjected to long-period ground motions [J] . Yu-Lin Chung, Takuya Nagae, Tomohiro Matsumiya, Earthquake Engineering & Structural Dynamics . 2012,第4期

机译：高层钢框架中经过长期地震动时加装梁柱连接的抗震能力
5. BEHAVIOR OF MOMENT CONNECTIONS BETWEEN CONCRETE-FILLED STEEL TUBE COLUMNS AND WIDE FLANGE STEEL BEAMS SUBJECTED TO SEISMIC LOADS [C] . Bradley D KOESTER, Joseph A YURA, James O JIRSA 12th World Conference on Earthquake Engineering . 2000

机译：地震荷载作用下钢管混凝土柱与宽翼缘钢梁弯矩连接的行为
6. Seismic Performance of Steel Pipe Pile to Cap Beam Moment Resisting Connections. [D] . Fulmer, Steven Joseph. 2013

机译：钢管桩抗梁矩抗力连接的抗震性能。
7. Seismic Performance of RC Beam-Column Connections with Continuous Rectangular Spiral Transverse Reinforcements for Low Ductility Classes [O] . Mohammadamin Azimi, Azlan Bin Adnan, Abdul Rahman Bin Mohd Sam, -1

机译：低延性等级的连续矩形螺旋横向钢筋混凝土RC梁柱连接的抗震性能
8. Testing of pile to pile-cap connection on steel pipe piles subject to axial and uplift loads [O] . Moon S. Nam, Hong-Jong Kim, Sung-Gi Kwon 2016

机译：钢管桩对轴向隆起负荷的桩帽连接的测试
9. Seismic Performance of Steel Pipe Pile to Cap Beam Moment Resisting Connections. [R] . Fulmer, S. J., Kowalsky, M. J., Nau, J. M. 2013

机译：钢管桩对帽梁抗弯连接的抗震性能。

Performance of Steel Pipe Pile-to-Concrete Cap Connections Subject to Seismic or High Transverse Loading: Phase III Confirmation of Connection Performance.

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