Mechanical properties of compressed wood

Research output: Contribution to journalResearch articleContributedpeer-review

Contributors

  • Siavash Namari - , Chair of Timber Engineering and Structural Design (Author)
  • Peer Haller - , Chair of Timber Engineering and Structural Design (Author)
  • Lukas Drosky - (Author)
  • Adeayo Sotayo - , University of Liverpool (UOL) (Author)
  • Daniel Bradley - , University of Liverpool (UOL) (Author)
  • Sameer Mehra - , University of Galway (Author)
  • Conan O'Ceallaigh - , University of Galway (Author)
  • Annette M. Harte - , University of Galway (Author)
  • Imane El-Houjeyri - , Université de Lorraine (Author)
  • Marc Oudjene - , Université de Lorraine (Author)
  • Zhongwei Guan - , University of Liverpool (UOL) (Author)

Abstract

Wood is a natural composite material. One the strength of wood is its good ratio of mechanical properties with respect to density, which can be further improved by densification technology. Compressed Wood (CW), with superior mechanical properties, could be utilised in timber products and timber connections as an alternative to energy-intensive adhesives and metals. However, the limited literature available on the mechanical properties of CW makes it chanllenging to utilise them in the development of new products and structures. To address this issue, this paper presents a comprehensive test programme and an extensive database of CW materials. It includes experimental results of over 720 material tests that were conducted on CW materials. The fundamental tests under compression, tension, bending, embedment, yield moment, shear and impact tests were undertaken. The results obtained from this study will help engineers utilise more CW to develop new products and connections. The results are also compared with the characteristic values of solid wood from the literature. As the densification of wood significantly improves strength and stiffness, this work will contribute towards the substantial uptake of CW in the building and construction industry with great benefits to the environment.

Details

Original languageEnglish
Article number124269
JournalConstruction and Building Materials
Volume301
Publication statusPublished - 27 Sept 2021
Peer-reviewedYes

External IDs

Scopus 85111630742
ORCID /0000-0002-6804-4398/work/166324510

Keywords

Keywords

  • Compressed wood, Engineered wood products, Holz, Material characterisation, Mechanical property, verdichtetes Holz, Compressed wood, Compressed wood connector, Engineered wood products, Holz, Material characterisation, Mechanical properties