In‐plane quasi‐static tests for the evaluation of seismic demand on Power Actuated Fasteners (PAF)-Reference-Cited by-同舟云学术

In‐plane quasi‐static tests for the evaluation of seismic demand on Power Actuated Fasteners (PAF)

Published:2023-09 Issue:3-4 Volume:6 Page:2356-2360
ISSN:2509-7075
Container-title:ce/papers
language:en
Short-container-title:ce papers

Author:

Fiorino Luigi¹,Campiche Alessia¹,Grzesik Peter²,Landolfo Raffaele¹

Affiliation:

1. Università degli Studi di Napoli, “Federico II” Naples Italy

2. Hilti Corporation, Schaan, Principality of Liechtenstein

Abstract

AbstractRecent research showed that the damage in non‐structural components significantly affects the seismic behaviour of structures, indeed it is crucial to evaluate the seismic behaviour of non‐structural components. For this purpose, the University of Naples “Federico II” started a cooperation with the Hilti Corporation, to evaluate the seismic demand on fasteners connecting drywalls to supporting elements. In particular, the seismic displacement demand on Power Actuated Fasteners (PAF) was obtained through quasi‐static in‐plane cyclic tests on full‐scale drywall partitions.Test specimens consisted of 2285 mm long and 2600 mm high partition walls and in total seven tests were carried‐out at the Lab of the Department of Structures for Engineering and Architecture. A specific test set‐up was developed for the experimental tests and the optimal instrumentation layout was studied to allow to capture the significant measurements on PAFs. A FEMA 461 protocol was employed for all the tests.The paper summarizes the experimental program, describing wall configurations, test set‐up, loading protocol and instrumentation layout. A special focus is dedicated to the comments of experimental results.

Publisher

Wiley

Subject

General Earth and Planetary Sciences,General Environmental Science

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/cepa.2695

Reference13 articles.

1. RahmanishamsiE. SoroushianS. MaragakisE.(2014)Seismic Response of Ceiling/Piping/Partition Systems in NEESR‐GC System level Experiments ASCE Structures Congress American Society of Civil Engineers ASCE 2014.

2. MagliuloG. PetroneC. CapozziV. MaddaloniG. LopezP. ManfrediG(2014)Seismic Performance Evaluation of Plasterboard Partitions via Shake Table Tests University of Naples Federico II Department of Structures for Engineering and Architecture Naples.

3. WangX. PantoliE. HutchinsonT. C. RestrepoJ. I. WoodL. R. HoehlerM. S. GrzesikP. SesmaF. H. (2015)Seismic Performance of Cold‐Formed Steel Wall Systems in a Full‐Scale Building Journal of Structural Engineering American Society of Civil Engineers ASCE 2015 doi:info:doi/10.1061/(ASCE)ST.1943-541X.0001245.

4. Experimental Seismic Fragility of Cold-Formed Steel Framed Gypsum Partition Walls

5. WoodsR.L. HutchinsonT.C.(2012)A numerical Model for capturing the in‐plane seismic response of interior metal stud partition walls Technical Report MCEER‐12‐0007 University of Buffalo New York.