Fixation of compressive deformation in wood by pre-steaming


Citation

Norimoto M., . and Sekino N., . and Inoue M., . and Morooka T., . and Rowell R. M., . Fixation of compressive deformation in wood by pre-steaming. pp. 273-281. ISSN 0128-1283

Abstract

Wood block specimens pre-steamed at 120“220 C for 5“20 min were compressed in the radial direction. The recovery of set decreased with increasing pre-steaming temperature and time. The reduction of set recovery correlated with the amount of weight loss in steaming irrespective of pre-steaming temperature and time. The weight loss for the highest level of fixation of compressive deformation was about 7.5 that was obtained by pre-steaming at 210“220 C for 10 min. Moreover the set recovery of the pre-steamed specimen decreased as pressing temperature and time increased. The compressibility of wood block increased with increasing pre-steaming temperature and time. Large transverse compression and stress relaxation tests showed that Youngs modulus and yield stresses were reduced while the stress relaxation magnitude was increased by more severe pre-steaming condition. Scanning electron micrographs showed some cell structure destruction at large deformations in specimens steamed at above 180 C. This suggests that the wood becomes brittle due to steaming. Creep test data indicate that fluidity decreased with increasing steaming time and temperature. Pre-steam fixation of compressive deformation is due to degradation of the microfibril framework as well as the viscous flow of the matrix components resulting from the scission of their cross-linked network.


Download File

Full text available from:

Abstract

Wood block specimens pre-steamed at 120“220 C for 5“20 min were compressed in the radial direction. The recovery of set decreased with increasing pre-steaming temperature and time. The reduction of set recovery correlated with the amount of weight loss in steaming irrespective of pre-steaming temperature and time. The weight loss for the highest level of fixation of compressive deformation was about 7.5 that was obtained by pre-steaming at 210“220 C for 10 min. Moreover the set recovery of the pre-steamed specimen decreased as pressing temperature and time increased. The compressibility of wood block increased with increasing pre-steaming temperature and time. Large transverse compression and stress relaxation tests showed that Youngs modulus and yield stresses were reduced while the stress relaxation magnitude was increased by more severe pre-steaming condition. Scanning electron micrographs showed some cell structure destruction at large deformations in specimens steamed at above 180 C. This suggests that the wood becomes brittle due to steaming. Creep test data indicate that fluidity decreased with increasing steaming time and temperature. Pre-steam fixation of compressive deformation is due to degradation of the microfibril framework as well as the viscous flow of the matrix components resulting from the scission of their cross-linked network.

Additional Metadata

[error in script]
Item Type: Article
AGROVOC Term: Wood
AGROVOC Term: Steaming
AGROVOC Term: Compression wood
AGROVOC Term: Pressing
AGROVOC Term: Brittle willow
AGROVOC Term: Viscoelasticity
AGROVOC Term: Strength
AGROVOC Term: Cryptomeria japonica
AGROVOC Term: Pinus densiflora
AGROVOC Term: Temperature
Depositing User: Ms. Suzila Mohamad Kasim
Last Modified: 24 Apr 2025 06:27
URI: http://webagris.upm.edu.my/id/eprint/21748

Actions (login required)

View Item View Item