2019
DOI: 10.3390/f10090779
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On Wood–Water Interactions in the Over-Hygroscopic Moisture Range—Mechanisms, Methods, and Influence of Wood Modification

Abstract: Wood is a hygroscopic material that absorbs and desorbs water to equilibrate to the ambient climate. Within material science, the moisture range from 0 to about 95–98% relative humidity is generally called the hygroscopic moisture range, while the exceeding moisture range is called the over-hygroscopic moisture range. For wood, the dominating mechanisms of moisture sorption are different in these two moisture ranges; in the hygroscopic range, water is primarily bound by hydrogen bonding in cell walls, and, in … Show more

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Cited by 48 publications
(30 citation statements)
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“…Depending on moisture content, natural fibres may contain water in two states: (i) the water bound to the different biopolymers constituting the cell walls and the middle lamella, primarily via the formation of hydrogen bonds with hydroxyl groups eOH and (ii) the free water which is in the micro-and macropores of cell walls, filling the voids (lumens) and retained by capillary forces [3][4][5][6]. Fig.…”
Section: Introductionmentioning
confidence: 99%
“…Depending on moisture content, natural fibres may contain water in two states: (i) the water bound to the different biopolymers constituting the cell walls and the middle lamella, primarily via the formation of hydrogen bonds with hydroxyl groups eOH and (ii) the free water which is in the micro-and macropores of cell walls, filling the voids (lumens) and retained by capillary forces [3][4][5][6]. Fig.…”
Section: Introductionmentioning
confidence: 99%
“…Under normal environmental conditions (temperature and relative humidity), moisture is predominantly found within the solid cell walls [ 1 ]. However, at high relative humidity (> 98–99%), moisture is also held as capillary water in the macro-void structure of the wood [ 2 , 3 ]. To understand how moisture affects wood performance in the full moisture range, it is therefore important to be able to distinguish between cell wall water and capillary water in wood.…”
Section: Introductionmentioning
confidence: 99%
“…A pesar de las pequeñas diferencias entre especies en el contenido de humedad inicial, durante las pruebas de higroscopía se observa solamente el efecto del hidratado de la madera. En efecto, después de 72 horas de hidratado, la madera de las tres especies alcanzó contenidos de humedad superiores a los puntos de saturación de la fibra: S. campanulata (ST) 144%, S. campanulata (CT) 123%, F. americana (ST) 60%, F. americana (CT) 61%, A. plurijuga (ST) 48% y A. plurijuga (CT) 45%, alcanzando el dominio higroscópico superior (Fredriksson, 2019). Estos resultados permitieron medir las higroexpansiones máximas.…”
Section: Contenidos De Humedadunclassified