6. Research on structures and connections subject to seismic forces
The most compelling driving force for the present structural steel research effort in the US was the January 17, 1994 earthquake in Northridge, California, North of Los Angeles. The major problem for steel structures was the extensive failure of prequalified welded rigid joints by brittle fracture. In over 150 buildings of one to 26 stories high there were over a thousand fractured joints. The buildings did not collapse, nor did they show any external signs of distress, and there were no human injuries or deaths. A typical joint is shown in Fig. 2.2.1.
In this connection the flanges of the beams are welded to the flanges of the column by full-penetration butt welds. The webs are bolted to the beams and welded to the columns. The characteristic features of this type of connection are the backing bars at the bottom of the beam flange, and the cope-holes left open to facilitate the field welding of the beam flanges. Fractures occurred in the welds, in the beam flanges, and/or in the column flanges, sometimes penetrating into the webs.
Once the problem was discovered several large research projects were initiated at various university laboratories, such as The University of California at San Diego, the University of Washington in Seattle, the University of Texas at Austin, Lehigh University at Bethlehem, Pennsylvania, and at other places. The US Government under the leadership of the Federal Emergency Management Agency (FEMA) instituted a major national research effort. The needed work was deemed so extensive that no single research agency could hope to cope with it. Consequently three California groups formed a consortium which manages the work:
(1) Structural Engineering Association of California.
(2) Applied Technology Council.
(3) California Universities for Research in Earthquake Engineering.
The first letters in the name of each agency were combined to form the acronym SAC, which is the name of the joint venture that manages the research. We shall read much from this agency as the results of the massive amounts of research performed under its aegis are being published in the next few years.
The goals of the program are to develop reliable, practical and cost-effective guidelines for the identification and inspection of at-risk steel moment frame buildings, the repair or upgrading of damaged buildings, the design of new construction, and the rehabilitation of undamaged buildings.~ As can be seen, the scope far exceeds the narrow look at the connections only. The first phase of the research was completed at the end of 1996, and its main aim was to arrive at interim guidelines so that design work could proceed. It consisted of the following components:
~ A state-of-the-art assessment of knowledge on steel connections.
~ A survey of building damage.
~ The evaluation of ground motion.
~ Detailed building analyses and case studies.
~ A preliminary experimental program.
~ Professional training and quality assurance programs.
~ Publishing of the Interim Design Guidelines.
A number of reports were issued in this first phase of the work. A partial list of these is appended at the end of this paper.
During the first phase of the SAC project a series of full-scale connection tests under static and, occasionally, dynamic cyclic tests were performed. Tests were of pre-Northridge-type connections (that is, connections as they existed at the time of the earthquake), of repaired and upgraded details, and of new recommended connection details. A schematic view of the testing program is illustrated in Fig. 2.2.2 Some recommended strategies for new design are schematically shown in Fig. 2.2.3.
- 上一篇:医院和医疗设施空调英文文献和翻译
- 下一篇:嵌入式系统对空调舒适温度控制的英文文献和翻译
-
-
-
-
-
-
-
十二层带中心支撑钢结构...
大众媒体对公共政策制定的影响
当代大学生慈善意识研究+文献综述
乳业同业并购式全产业链...
杂拟谷盗体内共生菌沃尔...
java+mysql车辆管理系统的设计+源代码
电站锅炉暖风器设计任务书
中考体育项目与体育教学合理结合的研究
酸性水汽提装置总汽提塔设计+CAD图纸
河岸冲刷和泥沙淤积的监测国内外研究现状