Mechanical Performance of Heat-Treated Norway Spruce (Picea abies) Wood

Authors

  • R. Hasanagic University of Bihac, Bosnia and Herzegovina
  • L. Fathi Shahrekord University, Iran
  • M. Sefidruh Shahrekord University, Iran
  • M. Bahmani Shahrekord University, Iran
  • M. Humar University of Ljubljana, Slovenia

DOI:

https://doi.org/10.31926/but.fwiafe.2023.16.65.2.7

Keywords:

wood, mechanical properties, thermal modification, spruce

Abstract

In this study, the mechanical characteristics of Norway spruce wood (Picea abies) from Bosnia and Herzegovina were investigated by thermal treatment at three different temperatures (specifically, 180, 190, and 210°C) and treatment durations (namely, 2, 3, and 4 hours). For this purpose, the maximum 4-point bending force, the modulus of elasticity in bending, the compression strength parallel to the grain, and the compression strength perpendicular to the grain in treated and untreated specimens were evaluated. Results indicated that the relationship between temperature and duration modification affects the mechanical properties of wood specimens. The results revealed that the relationship between temperature and duration modification influenced the mechanical properties of the wood samples. Specifically, in terms of compression strength, it was observed that the heat-treated specimens exhibited improved mechanical properties compared to the unmodified specimens. However, for the maximum 4-point bending force and modulus of elasticity, the results indicated a decrease in mechanical properties.

Author Biographies

R. Hasanagic, University of Bihac, Bosnia and Herzegovina

Faculty of Technical Engineering, Department of Wood Science and Technology

L. Fathi, Shahrekord University, Iran

Department of Natural Resources and Earth Science

M. Sefidruh, Shahrekord University, Iran

Department of Natural Resources and Earth Science

M. Bahmani, Shahrekord University, Iran

Department of Natural Resources and Earth Science

M. Humar, University of Ljubljana, Slovenia

Biotechnical Faculty, Department of Wood Science

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Published

2023-12-20

Issue

Vol. 16(65) No. 2 (2023)

Section

WOOD INDUSTRY