Cyclic behavior of glulam connections with inclined self-tapping screws

Cyclic behavior of glulam connections with inclined self-tapping screws

Glued laminated timber (glulam) structures are attracting increased attention in seismic applications due to their sustainability and high strength-to-weight ratio. This study investigates the cyclic and static shear performance of glulam joints connected with inclined self-tapping screws (STS), aim...

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Bibliographic Details
Main Authors: Jia Lei, Jingkang Lin, Shuke Jia, Zhiyuan Chen, Feibin Wang, Zeli Que
Format: Article
Language:English
Published: Taylor & Francis Group 2025-04-01
Series:Journal of Asian Architecture and Building Engineering
Subjects:
glulam
self-tapping screws
shear performance
analytical model
Online Access:http://dx.doi.org/10.1080/13467581.2025.2495899
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Summary:Glued laminated timber (glulam) structures are attracting increased attention in seismic applications due to their sustainability and high strength-to-weight ratio. This study investigates the cyclic and static shear performance of glulam joints connected with inclined self-tapping screws (STS), aiming to identify optimal connection configurations for improved seismic resilience. Four types of inclined STS configurations were experimentally assessed under low-cycle repeated loading, simulating seismic stress conditions. Key mechanical properties such as energy dissipation, stiffness, ductility, and load-bearing capacity were analyzed in detail. Results show that under cyclic loading, all joint configurations exhibited stable hysteretic behavior. The ordinary screw joint with shear loading (OSJ-S) demonstrated the highest energy dissipation during the initial loading cycles, while the inclined screw joint under compression-shear loading (ISJ-C) exhibited superior energy retention at the yield stage. The inclined screw joint under tension-shear loading (ISJ-T) and the inclined screw joint under X-shear loading (ISJ-X) effectively mitigated stiffness degradation over multiple cycles, improving joint stability. Additionally, inclined screws – particularly at a 45° angle – significantly enhanced initial joint stiffness, with the highest stiffness observed in tension-shear connections. This study provides critical insights into the mechanical behavior of inclined STS in glulam joints, establishing a foundation for optimizing timber connection design in seismic applications.
ISSN:1347-2852

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