Evaluation of the out-of-plane behavior of stud-to-track connections in nonstructural partition walls

Rahmanishamsi, Esmaeel; Soroushian, Siavash; Maragakis, Emmanuel M.

doi:10.1016/j.tws.2016.02.018

Cited by 12 publications

(5 citation statements)

References 19 publications

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“…To calculate the structural response to wind, considering the randomness of the wind load input and the structural response, the wind load is divided into six 10-minute mean wind speed levels (20,30,40,50,60, and 70 m/s). Using the Davenport spectrum [36] as given in equations ( 6) and ( 7), the fluctuating wind speed time history is obtained by equation ( 8) based on the harmonic superposition method [37].…”

Section: Fluctuating Wind Loadsmentioning

confidence: 99%

“…e CFS framing walls are not only part of the main structure but also an important cladding component. When the walls are considered as a cladding component, their out-of-plane load-bearing performance is of primary concern [20,21]. e roof sheathing consists of roof trusses, purlins, and roof panels, with the roof panels and purlins typically bolted together.…”

Section: Introductionmentioning

confidence: 99%

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Fragility Comprehensive Assessment of Low‐Rise Cold‐Formed Steel Framed Wall Structure Subjected to Wind Load

Zhang

Hou

Ding

et al. 2021

Shock and Vibration

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This paper presents a comprehensive assessment method of the fragility of low-rise cold-formed steel (CFS) framed wall structures subjected to wind hazards considering the fragility of both the main structure and the cladding system. The effects of wind directions on the fragility of CFS framed wall structures were also studied. For the main structure, the fragility curve is established using the maximum interstory drift ratio (ISDRmax) as the performance index for assessing the wind fragility of the structure. For the cladding system, the probabilistic models of the wind load and the cladding component resistance are established based on Monte Carlo simulation, and then methods for the fragility assessment of single cladding components and the cladding system under wind hazards considering the influence of the number and arrangement of the cladding components are proposed. The results indicated that, under strong wind, the cladding system may be damaged before the required wind resistance capacity of the main structure is exhausted. In particular, the roof sheathing is the most prone to damage, followed by the stud wall. That is, before the main structure is severely damaged or collapses, the cladding systems may be severely damaged, rendering the structure unusable. Therefore, the comprehensive assessment of the fragility of this type of structure subjected to wind hazard considering the fragility of both the main structure and the cladding system is more accurate. This study is of great significance for the improvement of the wind resistance performance of CFS structures and the popularization of this type of structure.

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Section: Fluctuating Wind Loadsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Fragility Comprehensive Assessment of Low‐Rise Cold‐Formed Steel Framed Wall Structure Subjected to Wind Load

Zhang

Hou

Ding

et al. 2021

Shock and Vibration

View full text Add to dashboard Cite

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“…Main studies can by grouped in cyclic tests [70][71][72][73][74][75][76][77], and shake table tests [78,79] of partitions; shake table tests of suspended ceiling [80,81], and shake table tests of systems made of partitions and suspended ceiling [82,83]. In addition, also specific activities for the experimental evaluation of mechanical properties of cladding boards [84] and connections [85] were carried out.…”

Section: Seismic Behaviour: State Of the Artmentioning

confidence: 99%

Lightweight Steel Constructions for Seismic Areas

Landolfo

2018

KEM

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Lightweight steel constructions are one of the innovative constructional systems steadily increasing in spread due to their huge benefits in respect to more traditional constructional systems. Typical lightweight steel products, usually combined with gypsum, wood and cement based panels, can be used to build both structural and nonstructural systems. After a brief description of the most common lightweight steel constructional systems, this paper describes the state of the art by focusing the attention on their behaviour under seismic actions. In particular, the main past and ongoing research themes are briefly summarised and a critical comparison among seismic codes available in North America, Europe and Oceania is presented. Finally, an overview of studies carried out on this topic at the University of Naples Federico II is presented and latest research activities involving the seismic performance assessment of both lightweight steel structural and nonstructural architectonic systems though shake-table tests is provided.

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“…Quasi-static tests were performed with a varying number of dampers, showing that the ultimate bearing capacity of the wall with dampers was greatly increased. Rahmanishamsi et al conducted monotonic loading tests and hysteretic tests to study the performance of LSKGBPWs [18][19][20][21], including 31 gypsum board steel stud connection specimens, 33 steel stud-track connection specimens, and 22 track-floor connection specimens. In addition, a series of nonlinear plasticity models of partition wall joints were developed in OpenSees for numerical analysis of the wall.…”

Section: Introductionmentioning

confidence: 99%

Seismic Fragility of Chinese Light‐Gauge Steel Keel Gypsum Board Partition Walls

Wang

Zhi

Zhu³

et al. 2021

Shock and Vibration

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A quasi-static experimental program of light-gauge steel keel gypsum board partition walls (LSKGBPW) was carried out to evaluate the seismic damage phenomena, failure mechanisms, and fragility. The 15 specimens in five groups were designed per current Chinese codes and engineering practice. Then, three damage states were defined based on the damage and repair measures, and the fragility data of each group were presented, providing basic data for the estimation of seismic damage and consequential loss of nonstructural components.

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Evaluation of the out-of-plane behavior of stud-to-track connections in nonstructural partition walls

Cited by 12 publications

References 19 publications

Fragility Comprehensive Assessment of Low‐Rise Cold‐Formed Steel Framed Wall Structure Subjected to Wind Load

Fragility Comprehensive Assessment of Low‐Rise Cold‐Formed Steel Framed Wall Structure Subjected to Wind Load

Lightweight Steel Constructions for Seismic Areas

Seismic Fragility of Chinese Light‐Gauge Steel Keel Gypsum Board Partition Walls

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