Change in Micromechanical Behavior of Surface Densified Wood Cell Walls in Response to Superheated Steam Treatment

The combination of surface densification and superheated steam treatment is an effective method to improve the mechanical properties and dimensional stability of low-density wood. The objective of the current work is to evaluate the effects of superheated steam treatment on the micromechanical behav...

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Bibliographic Details
Published in:Forests 2021-06, Vol.12 (6), p.693
Main Authors: Xiang, Elin, Huang, Rongfeng, Yang, Shumin
Format: Article
Language:English
Subjects:
cell wall
Cell walls
Cellulose
Chemical composition
creep behavior
Creep strength
Crystal structure
Crystallinity
Densification
Dimensional stability
Flooring
Hardness
Heat
Mechanical properties
Modulus of elasticity
Moisture content
nanoindentation (NI)
Steam
superheated steam treatment (SHT)
surface densified wood
Viscoelasticity
Wood
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Summary:The combination of surface densification and superheated steam treatment is an effective method to improve the mechanical properties and dimensional stability of low-density wood. The objective of the current work is to evaluate the effects of superheated steam treatment on the micromechanical behavior of surface densified wood. The microstructure, chemical composition, cellulose crystalline structure, and micromechanical behavior of surface densified wood under different superheated steam pressures were investigated. Results indicated that both 0.1 MPa and 0.3 MPa superheated steam treatments increased the elastic modulus and hardness of fiber cell walls in surface densified wood. However, the average creep ratio and maximum creep compliance J(50) of surface densified wood under 0.3 MPa decreased by 41.59% and 6.76%, respectively, compared with untreated wood. The improvement of elastic modulus, hardness and creep resistance of surface densified wood treated with superheated steam was associated with the increase of relative crystallinity (CrI) and crystalline size. In addition, 0.3 MPa superheated steam treatment displayed a better effect on the enhancement of the elastic modulus, hardness, and creep resistance of the fiber cell wall than 0.1 MPa superheated steam treatment.
ISSN:1999-4907
1999-4907
DOI:10.3390/f12060693