用 SMA 销钉和 DVW 加固增强木材连接的韧性

Proceedings of the Institution of Civil Engineers - Engineering History and Heritage Pub Date : 2023-11-21 DOI:10.1680/jenhh.23.00009

Haoyu Huang, Wen-Shao Chang

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引用次数: 0

摘要

榫卯式木材连接常见于历史建筑中，需要对其进行加固和修复，以确保其抵御自然灾害的能力得以保持。本研究旨在通过在榫卯连接处安装形状记忆合金（SMA）榫卯和致密单板木（DVW）加固件，增强榫卯连接处的抗灾能力。研究结果表明，在循环弯曲条件下，SMA 杆件在自聚效应和延展性方面的性能优于钢材。对 SMA 去毛刺木材连接件的动态测试表明，与使用钢材的连接件相比，使用 SMA 的连接件表现出更低的残余变形和更好的自聚效应。此外，DVW 加固不仅提高了 SMA 下模连接的自定心效果，还提高了其抗性。实心钢筋和钢管的比较表明，实心钢筋在阻尼、阻力和自定心方面表现更好。这些结果证明了开发弹性木材连接和改善 SMA 下沉木材连接性能的潜力。

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Enhancing resilience in timber connections with SMA dowel and DVW reinforcement

Dowel-type timber connections are commonly found in historic buildings and require reinforcement and repair to ensure their resilience against natural disasters is maintained. This study aims to enhance the resilience of dowel-type connections by equipping them with shape memory alloy (SMA) dowels and densified veneer wood (DVW) reinforcement. The research findings reveal that the performance of SMA bars under cyclic bending is superior to that of steel, in terms of self-centring effect and ductility. Dynamic testing of the SMA-dowelled timber connections shows that connections using SMA exhibit lower residual deformation and better self-centring than those using steel. Additionally, the DVW reinforcement not only improves the self-centring but also the resistance of the SMA-dowelled connection. The comparison between solid bars and tubes shows that the solid bars perform better in terms of damping, resistance, and self-centring. These results demonstrate the potential of developing resilient timber connections and improving the performance of SMA-dowelled timber connections.

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Proceedings of the Institution of Civil Engineers - Engineering History and Heritage

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