DAMAGE OBSERVATION AND DETECTION USING ACCELEROMETER OF DRY PARTITION WALL INSTALLED IN STEEL MOMENT FRAME UNDER LARGE STORY DRIFT

The paper describes the shaking table performance of a half-scale two-story steel moment frame with asymmetric friction connections (AFCs) at the column bases and at the beam ends. The results showed that the beam ends and the base-column joints exhibited bilinear and trilinear response respectively. Residual drifts were less than 0.2% for shake table trials up to 3% peak inter-story drift. Even at a peak inter-story drift of 6.5%, the residual drift response was still only 0.7%.

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Cyclic Behavior of Panel Zone in Steel Moment Frame under Bidirectional Loading

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.763.361 ◽

2018 ◽

Vol 763 ◽

pp. 361-368

Author(s):

Yan Dong Wang ◽

Ryota Arakida ◽

Iathong Chan ◽

Yuji Koetaka ◽

Tatsuya Nakano

Keyword(s):

Aspect Ratio ◽

Cyclic Behavior ◽

Severe Damage ◽

Moment Frame ◽

Steel Moment Frame ◽

Panel Zone ◽

Total Input ◽

Story Drift ◽

Flange Beams ◽

Loading Modes

This paper aims to examine the cyclic behavior of panels in steel moment frame subjected to bidirectional and unidirectional loading and to demonstrate the differences of panel behavior under two loading modes. The specimens were composed of wide-flange beams and square tube columns, and the panel zones were designed to yield before columns and beams. Experimental results showed that specimens subjected to bidirectional loading suffered severe damage, caused by the weld fracture at the corner of panel-to-diaphragm weld, and failed at 0.06 rad and 0.04 rad story drift for specimens with panel aspect ratio of 1.4 and 2.0, respectively. Specimens subjected to unidirectional loading developed a story drift of 0.06 rad without strength reduction. The panels contributed about 60%-80% story drift and dissipated approximately 80% of total input energy. Panels with higher aspect ratio showed smaller plastic shear strength because of the effect of flexural yielding in panels. Moreover, the beams were found to present plastic moments 20%-50% lower than theoretical values, which was attributed to the small panel-to-beam strength ratio.

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Study on Wire Rope Brace Design Method of Prestressed Braced Steel Moment Frame

The Open Civil Engineering Journal ◽

10.2174/1874149501509010021 ◽

2015 ◽

Vol 9 (1) ◽

pp. 21-31 ◽

Cited By ~ 1

Author(s):

Ailin Zhang ◽

Liang Zhao ◽

Xuechun Liu

Keyword(s):

Design Method ◽

Wire Rope ◽

Lateral Stiffness ◽

Sectional Area ◽

Moment Frame ◽

Steel Moment Frame ◽

Structure System ◽

Design Formula ◽

Story Drift ◽

The Relationship

To study the design method of sectional area and initial tension of wire rope brace of the prestressed braced steel moment frame structure system, theoretical analysis of this structure system is conducted in this paper. The lateral stiffness formula is derived. It reveals the lateral stiffness is related to the lateral stiffness of bare steel moment frame, story height, the distance between column and lower end of brace, story drift, material properties and sectional properties of wire rope. The lateral stiffness increases with the growth of story drift and the relationship curve is a concave shape. It is presented the initial prestress degree design formula and method in light of the criterion for determining initial prestress degree. The story drift decreases with the growth of wire rope sectional area and the relationship curve is a concave shape, in terms of this, a wire rope sectional area design formula and method are proposed. The validation of the proposed design formula and method of wipe rope brace is proved by an example analyzed using finite element software package ABAQUS.

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Cyclic Testing of Bolted Flange Plate and Double Split Tee Type Weak-Axis Steel Moment Connections

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.204-208.2913 ◽

2012 ◽

Vol 204-208 ◽

pp. 2913-2921

Author(s):

Kang Min Lee ◽

Rui Li ◽

Liu Yi Chen

Keyword(s):

Seismic Performance ◽

Load Transfer ◽

Great Influence ◽

Construction Costs ◽

Moment Frame ◽

Moment Connections ◽

Steel Moment Frame ◽

Drift Ratio ◽

Story Drift ◽

Bolted Flange

Steel beam-to-column connections are very important for steel moment-frame structures. Beam-to-column connections have a great influence not only on the seismic performance but also on construction costs and construction durations. These days in Korea, most of the connection details are comprised of the column-tree type beam-to-column connections due to the Japanese influence. But this type of connection is inefficient when it comes to transportation and requires numerous components. The Bolted Flange Plate(BFP) and the Double Split Tee(DST) type weak-axis connections on the other hand are simple in construction and the load transfer is more direct. So, in order to research their respective seismic performance, this paper prepared two specimens and conducted a full-scale test. The study obtained the story drift ratio curves and the total plastic rotation curves of the specimens. Through the analysis of the curves this paper aims to conclude that the two connections meet the requirements pertaining to the Special Moment Frame, which prescribes that the story drift ratio should reach 4%. This paper demonstrates that the BFP and DST type connections display good plastic behaviors.

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Seismic Performance of a Green Roof Structure

Sustainability ◽

10.3390/su13084278 ◽

2021 ◽

Vol 13 (8) ◽

pp. 4278

Author(s):

Svetlana Tam ◽

Jenna Wong

Keyword(s):

Green Roof ◽

Time History ◽

Green Roofs ◽

Moment Frame ◽

Steel Moment Frame ◽

Roof Structure ◽

Nonlinear Time History Analyses ◽

Vegetated Roofs ◽

Nonlinear Time History ◽

The Impact

Sustainability addresses the need to reduce the structure’s impact on the environment but does not reduce the environment’s impact on the structure. To explore this relationship, this study focuses on quantifying the impact of green roofs or vegetated roofs on seismic responses such as story displacements, interstory drifts, and floor level accelerations. Using an archetype three-story steel moment frame, nonlinear time history analyses are conducted in OpenSees for a shallow and deep green roof using a suite of ground motions from various distances from the fault to identify key trends and sensitivities in response.

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Seismic connection designs for new and existing steel moment frame structures

Journal of Constructional Steel Research ◽

10.1016/s0143-974x(98)00191-6 ◽

1998 ◽

Vol 46 (1-3) ◽

pp. 454 ◽

Cited By ~ 4

Author(s):

Jay Allen ◽

Ralph M Richard ◽

James Partridge

Keyword(s):

Frame Structures ◽

Moment Frame ◽

Steel Moment Frame

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Interpretation of significant ground-response and structure strong motions recorded during the 1994 Northridge earthquake

Bulletin of the Seismological Society of America ◽

10.1785/bssa08601bs231 ◽

1996 ◽

Vol 86 (1B) ◽

pp. S231-S246 ◽

Cited By ~ 1

Author(s):

A. F. Shakal ◽

M. J. Huang ◽

R. B. Darragh

Keyword(s):

Flexible Structures ◽

Northridge Earthquake ◽

Moment Frame ◽

Ground Response ◽

Short Period ◽

Frame Buildings ◽

Story Drift ◽

San Fernando ◽

San Fernando Valley ◽

The Moment

Abstract Some of the largest accelerations and velocities ever recorded at ground-response and structural sites occurred during the Northridge earthquake. These motions are greater than most existing attenuation models would have predicted. Although the motions are large, the correspondence between measured acceleration and damage requires further study, since some sites with high acceleration experienced only moderate damage. Also, some peak vertical accelerations were larger than the horizontal, but in general, they are smaller and fit the pattern observed in previous earthquakes. Strong-motion records processed to date show significant differences in acceleration and velocity waveforms and amplitudes across the San Fernando Valley. Analysis of processed data from several buildings in the San Fernando Valley indicates that short-period buildings such as shear-wall buildings experienced large forces and relatively low inter-story drift during the Northridge earthquake. However, long-period (1 to 5 sec) steel or concrete moment-frame buildings experienced large inter-story drift. For this earthquake, accelerations did not always amplify from base to roof for flexible structures like the moment-frame buildings, but the displacements were always larger at the roof. The drifts at many of the moment-frame buildings were larger than the drift limit for working stress design in the building code. The records from a base-isolated building indicate that high-frequency motion was reduced significantly by the isolators. The isolators deformed about 3.5 cm, which is much less than the design displacement. The records from a parking structure show important features of the seismic response of this class of structure.

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