Orthotropic mechano-sorptive creep behavior of Chinese fir during moisture desorption process determined in tensile mode
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Title
Orthotropic mechano-sorptive creep behavior of Chinese fir during moisture desorption process determined in tensile mode
Authors
Keywords
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Journal
WOOD SCIENCE AND TECHNOLOGY
Volume 53, Issue 4, Pages 747-764
Publisher
Springer Science and Business Media LLC
Online
2019-06-05
DOI
10.1007/s00226-019-01104-0
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Note: Only part of the references are listed.- Orthotropic mechano-sorptive creep behavior of Chinese fir during the moisture adsorption process determined in tensile mode via dynamic mechanical analysis (DMA)
- (2019) Hui Peng et al. HOLZFORSCHUNG
- Frequency-dependent viscoelastic properties of Chinese fir (Cunninghamia lanceolata) under hygrothermal conditions. Part 2: moisture desorption
- (2019) Tianyi Zhan et al. HOLZFORSCHUNG
- Frequency-dependent viscoelastic properties of Chinese fir (Cunninghamia lanceolata) under hygrothermal conditions. Part 1: moisture adsorption
- (2019) Tianyi Zhan et al. HOLZFORSCHUNG
- Influence of hygrothermal condition on dynamic viscoelasticity of Chinese fir (Cunninghamia lanceolata). Part 2: moisture desorption
- (2018) Tianyi Zhan et al. HOLZFORSCHUNG
- Application of time–temperature superposition principle to Chinese fir orthotropic creep
- (2017) Hui Peng et al. JOURNAL OF WOOD SCIENCE
- Time dependence of the orthotropic compression Young’s moduli and Poisson’s ratios of Chinese fir wood
- (2016) Jiali Jiang et al. HOLZFORSCHUNG
- Creep behavior of wood under cyclic moisture changes: interaction between load effect and moisture effect
- (2016) Yuxiang Huang JOURNAL OF WOOD SCIENCE
- Experimental study of the mechanosorptive behaviour of softwood in relaxation
- (2016) Omar Saifouni et al. WOOD SCIENCE AND TECHNOLOGY
- Effects of cell wall ultrastructure on the transverse shrinkage anisotropy of Scots pine wood
- (2015) Jan T. Bonarski et al. HOLZFORSCHUNG
- Dynamic response of earlywood and latewood within annual growth ring structure of Scots pine subjected to changing relative humidity
- (2015) Leszek Krzemień et al. HOLZFORSCHUNG
- How the relationship between density and shrinkage of wood depends on its microstructure
- (2015) K. Schulgasser et al. WOOD SCIENCE AND TECHNOLOGY
- Moisture-dependent, viscoelastic creep of European beech wood in longitudinal direction
- (2012) Stefan Hering et al. European Journal of Wood and Wood Products
- Influence of hygromechanical history on the longitudinal mechanosorptive creep of wood
- (2012) Cédric Montero et al. HOLZFORSCHUNG
- Tensile creep and recovery of Norway spruce influenced by temperature and moisture
- (2012) Emil Tang Engelund et al. HOLZFORSCHUNG
- A critical discussion of the physics of wood–water interactions
- (2012) Emil Tang Engelund et al. WOOD SCIENCE AND TECHNOLOGY
- Scale effect in the anisotropic deformation change of tracheid cells during water adsorption
- (2010) Ayako Taguchi et al. HOLZFORSCHUNG
- Micromechanics of creep and relaxation of wood. A review COST Action E35 2004–2008: Wood machining – micromechanics and fracture
- (2008) Parviz Navi et al. HOLZFORSCHUNG
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