Retrofitting of imperfect halved dovetail carpentry joints for increased seismic resistance

0501488 - ÚTAM 2020 RIV CH eng J - Journal Article
Drdácký, Miloš - Urushadze, Shota
Retrofitting of imperfect halved dovetail carpentry joints for increased seismic resistance.
Buildings. Roč. 9, č. 2 (2019), č. článku 48. E-ISSN 2075-5309
R&D Projects: GA MK(CZ) DG18P02OVV040
Keywords : carpentry halved joint * energy dissipation * seismic retrofitting
OECD category: Construction engineering, Municipal and structural engineering
Method of publishing: Open access
https://doi.org/10.3390/buildings9020048

This paper presents possibilities for anti-seismic improvement of traditional timber carpentry joints. It is known that the structural response of historical roof frameworks is highly dependent on the behavior of their joints, particularly, their capacity for rotation and energy dissipation. Any strengthening, or retrofitting, approach must take into account conservation requirements, usually expressed as conditions involving minimal intervention. Several retrofitting methods were tested on replicas of historical halved joints within various national and international research projects. The joints were produced with traditional hand tools, and made using aged material taken from a demolished building. The paper presents two approaches, each utilizing different retrofitting technologies that avoid completely dismantling the joint and consequently conserve frame integrity. The energy dissipation capacity is increased by inserting mild steel nails around a wooden pin, and connecting the two parts of the halved joint. In the second case, two thin plates made of a material with a high friction coefficient are inserted into the joint and fastened to the wooden elements. This is done by removing the wooden connecting pin and slightly opening a slot for the plates between the halved parts. In addition, the paper presents an application for disc brake plates, as well as thin plates made of oak.
Permanent Link: http://hdl.handle.net/11104/0295518