Shake table tests on standard and innovative temporary partition walls

Crescenzo Petrone; Gennaro Magliulo; Gaetano Manfredi

doi:10.1002/eqe.2872

Shake table testing of bookcase – partition wall systems

Canadian Journal of Civil Engineering ◽

10.1139/l04-031 ◽

2004 ◽

Vol 31 (4) ◽

pp. 664-676 ◽

Cited By ~ 5

Author(s):

Andre Filiatrault ◽

Steven Kuan ◽

Robert Tremblay

Keyword(s):

Fragility Curves ◽

Companion Paper ◽

Shake Table ◽

Free Standing ◽

Shake Table Tests ◽

Partition Wall ◽

Partition Walls ◽

Building Components ◽

Functional Components ◽

Nonstructural Building Components

This paper describes the seismic (shake table) tests conducted on bookcase – partition wall systems. These nonstructural building components can be considered acceleration sensitive (or motion sensitive) rather than drift sensitive. The shake table floor motions used for the seismic testing are described in a companion paper. One bookcase fully loaded with books and two different cantilevered partition wall systems were considered in the shake table tests. Nine different configurations of these free-standing nonstructural building components were tested. For each configuration, three different seismic hazard levels were considered for the motions at the second floor level of a six-storey building designed for two different densely populated Canadian cities (Montréal and Vancouver). A total of 485 shake table tests were conducted in this experimental investigation. The experimental results indicated that pounding between unanchored bookcases and partition walls is very beneficial to the dynamic response of the bookcases, as it prevents resonance from occurring. Also, the seismic performance of bookcases improved dramatically by the proper installation of seismic restraint systems. Experimental fragility curves for overturning of tall bookcases are presented.Key words: bookcases, earthquakes, fragility, interior partition walls, nonstructural, operational and functional components, pounding, seismic restraints, shake table.

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Seismic Behavior of Brick Cave Dwellings: Shake Table Tests

Journal of Building Engineering ◽

10.1016/j.jobe.2021.102886 ◽

2021 ◽

pp. 102886

Author(s):

Jianyang Xue ◽

Pengchun Hu ◽

Fengliang Zhang ◽

Yan Zhuge

Keyword(s):

Seismic Behavior ◽

Shake Table ◽

Shake Table Tests

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Shake table test program of cold-formed steel in-plane partition walls

Structures ◽

10.1016/j.istruc.2021.01.026 ◽

2021 ◽

Vol 30 ◽

pp. 503-517

Author(s):

Hyung-Joon Kim ◽

Dong-Hyeon Shin

Keyword(s):

Shake Table Test ◽

Plane Partition ◽

Shake Table ◽

Test Program ◽

Partition Walls ◽

Cold Formed Steel

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Comparison of Failure Modes of Piping Systems With Wall Thinning Subjected to In-Plane, Out-of-Plane, and Mixed Mode Bending Under Seismic Load: An Experimental Approach

Journal of Pressure Vessel Technology ◽

10.1115/1.4001517 ◽

2010 ◽

Vol 132 (3) ◽

Cited By ~ 12

Author(s):

Izumi Nakamura ◽

Akihito Otani ◽

Masaki Shiratori

Keyword(s):

Dynamic Behavior ◽

Failure Modes ◽

Seismic Load ◽

Piping System ◽

Shake Table ◽

Shake Table Tests ◽

Wall Thinning ◽

Piping Systems ◽

Out Of Plane ◽

Plane Bending

Pressurized piping systems used for an extended period may develop degradations such as wall thinning or cracks due to aging. It is important to estimate the effects of degradation on the dynamic behavior and to ascertain the failure modes and remaining strength of the piping systems with degradation through experiments and analyses to ensure the seismic safety of degraded piping systems under destructive seismic events. In order to investigate the influence of degradation on the dynamic behavior and failure modes of piping systems with local wall thinning, shake table tests using 3D piping system models were conducted. About 50% full circumferential wall thinning at elbows was considered in the test. Three types of models were used in the shake table tests. The difference of the models was the applied bending direction to the thinned-wall elbow. The bending direction considered in the tests was either of the in-plane bending, out-of-plane bending, or mixed bending of the in-plane and out-of-plane. These models were excited under the same input acceleration until failure occurred. Through these tests, the vibration characteristic and failure modes of the piping models with wall thinning under seismic load were obtained. The test results showed that the out-of-plane bending is not significant for a sound elbow, but should be considered for a thinned-wall elbow, because the life of the piping models with wall thinning subjected to out-of-plane bending may reduce significantly.

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Damage-Control Systems Using Replaceable Energy-Dissipating Steel Fuses for Cold-Formed Steel Structures: Seismic Behavior by Shake Table Tests

Journal of Structural Engineering ◽

10.1061/(asce)st.1943-541x.0000638 ◽

2013 ◽

Vol 139 (5) ◽

pp. 787-795 ◽

Cited By ~ 15

Author(s):

Fuminobu Ozaki ◽

Yoshimichi Kawai ◽

Ryoichi Kanno ◽

Koji Hanya

Keyword(s):

Control Systems ◽

Seismic Behavior ◽

Damage Control ◽

Steel Structures ◽

Shake Table ◽

Shake Table Tests ◽

Cold Formed Steel

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Shake-table tests of a reinforced concrete frame designed following modern codes: seismic performance and damage evaluation

Earthquake Engineering & Structural Dynamics ◽

10.1002/eqe.2372 ◽

2013 ◽

Vol 43 (6) ◽

pp. 791-810 ◽

Cited By ~ 16

Author(s):

Amadeo Benavent-Climent ◽

David Escolano-Margarit ◽

Leandro Morillas

Keyword(s):

Reinforced Concrete ◽

Seismic Performance ◽

Shake Table ◽

Damage Evaluation ◽

Reinforced Concrete Frame ◽

Shake Table Tests ◽

Concrete Frame

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Shake table tests on prestressed concrete frames

Materials and Structures ◽

10.1007/bf02480444 ◽

1998 ◽

Vol 31 (10) ◽

pp. 676-682 ◽

Cited By ~ 1

Author(s):

Y. L. Mo ◽

W. L. Hwang

Keyword(s):

Prestressed Concrete ◽

Shake Table ◽

Concrete Frames ◽

Shake Table Tests

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Shake table tests and analytical simulations of a steel structure with shape memory alloy dampers

Smart Materials and Structures ◽

10.1088/0964-1726/23/12/125002 ◽

2014 ◽

Vol 23 (12) ◽

pp. 125002 ◽

Cited By ~ 14

Author(s):

Y M Parulekar ◽

A Ravi Kiran ◽

G R Reddy ◽

R K Singh ◽

K K Vaze

Keyword(s):

Shape Memory Alloy ◽

Shape Memory ◽

Steel Structure ◽

Shake Table ◽

Shake Table Tests

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Closure to “Experimental Investigation of Seismic Uncertainty Propagation through Shake Table Tests” by Peng Deng, Shiling Pei, John W. van de Lindt, and Chao Zhang

Journal of Structural Engineering ◽

10.1061/(asce)st.1943-541x.0002253 ◽

2019 ◽

Vol 145 (2) ◽

pp. 07018013

Author(s):

Peng Deng ◽

Shiling Pei ◽

John W. van de Lindt ◽

Chao Zhang

Keyword(s):

Experimental Investigation ◽

Uncertainty Propagation ◽

Shake Table ◽

Shake Table Tests

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Learning Damage Representations with Sequence-to-Sequence Models

Sensors ◽

10.3390/s22020452 ◽

2022 ◽

Vol 22 (2) ◽

pp. 452

Author(s):

Qun Yang ◽

Dejian Shen

Keyword(s):

Damage Detection ◽

Health Monitoring ◽

Research Community ◽

Regions Of Interest ◽

Data Driven ◽

Economic Losses ◽

Shake Table ◽

Learning Models ◽

Shake Table Tests ◽

Damage States

Natural hazards have caused damages to structures and economic losses worldwide. Post-hazard responses require accurate and fast damage detection and assessment. In many studies, the development of data-driven damage detection within the research community of structural health monitoring has emerged due to the advances in deep learning models. Most data-driven models for damage detection focus on classifying different damage states and hence damage states cannot be effectively quantified. To address such a deficiency in data-driven damage detection, we propose a sequence-to-sequence (Seq2Seq) model to quantify a probability of damage. The model was trained to learn damage representations with only undamaged signals and then quantify the probability of damage by feeding damaged signals into models. We tested the validity of our proposed Seq2Seq model with a signal dataset which was collected from a two-story timber building subjected to shake table tests. Our results show that our Seq2Seq model has a strong capability of distinguishing damage representations and quantifying the probability of damage in terms of highlighting the regions of interest.

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