Ultra-High-Pressure Modification of Wood: Densification and Dyeing
Author:
Publisher
Springer Nature Singapore
Link
https://link.springer.com/content/pdf/10.1007/978-981-99-3776-9_6
Reference8 articles.
1. Yu Y, Li A, Yan K, Ramaswamy HS, Zhu S, Li H (2020) High-pressure densification and hydrophobic coating for enhancing the mechanical properties and dimensional stability of soft poplar wood boards. J Wood Sci 66(1):45
2. Li H, Zhang F, Ramaswamy HS, Zhu S, Yu Y (2016) High-pressure treatment of Chinese fir wood: effect on density, mechanical properties, humidity-related moisture migration, and dimensional stability. BioResources 11(4):10497–10510
3. Li A, Yan K, Ramaswamy HS, Zhu S, Yu Y (2020) Plastic and elastic strains in poplar wood under high-pressure densification. Trans ASABE 63(6):2021–2028
4. Yu Y, Zhang F, Zhu S, Li H (2017) Effects of high-pressure treatment on poplar wood: density profile, mechanical properties, strength potential index, and microstructure. BioResources 12(3):6283–6297
5. Yan K, Zhang F, Du Y, Ramaswamy HS, Zhu S, Hu L, Yu Y (2020) Delayed elastic strain and set-recovery evaluation in high-pressure densified hybrid poplar wood—new assessment considerations. BioResources 15(2):2691–2707
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