A hygro-mechanical analysis of poplar wood along the tangential direction by restrained swelling test

Mazzanti, Paola; Colmars, Julien; Gril, Joseph; Hunt, D. G.; Uzielli, Luca

doi:10.1007/s00226-014-0633-4

Cited by 16 publications

(7 citation statements)

References 12 publications

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“…Dimensional changes during sorption are accompanied by stresses arising within the material. During absorption of water, the swelling of wood can generate significant forces if the expansion is restricted in one or more directions [80,81]. Since wood is a porous material, some of the cell wall expansion occurring in such swelling-restricted wood will cause the cell lumina to shrink.…”

Section: Dimensional Changes and Associated Stressesmentioning

confidence: 99%

Kinetics of Water Vapor Sorption in Wood Cell Walls: State of the Art and Research Needs

Thybring

Glass

Zelinka

2019

Forests

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Water vapor sorption is the most fundamental aspect of wood-moisture relations. It is directly or indirectly related to the physical properties of wood and the onset of wood-damage mechanisms. While sorption properties of cellulosic materials have been utilized since antiquity, the time-dependent transition from one moisture content to another (i.e., sorption kinetics) has received much less attention. In this critical review, we present the state-of-the-art of water vapor sorption kinetics in wood. We first examine different experimental methods that have been used to measure sorption kinetics, from the quartz helix vacuum balance beginning in earnest in the 1930s, to automated sorption balances used recently. We then give an overview of experimental observations and describe the physical phenomena that occur during the sorption process, which potentially govern the following kinetics: boundary layer mass transfer resistance, heat of sorption, cell wall diffusion, swelling, and polymer mobility. Finally, we evaluate theoretical models that have been proposed for describing sorption kinetics, considering both experimental data and the physical processes described in the previous section. It is clear that no previously developed model can phenomenologically describe the sorption process. Instead, new models are needed. We conclude that the development of new models will require more than simple gravimetric measurements. In addition to mass changes, complementary techniques are needed to probe other important physical quantities on multiple length scales.

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Section: Dimensional Changes and Associated Stressesmentioning

confidence: 99%

Kinetics of Water Vapor Sorption in Wood Cell Walls: State of the Art and Research Needs

Thybring

Glass

Zelinka

2019

Forests

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“…When the RH varies, a change in the moisture content (MC) occurs, first in the most superficial layers of the exposed back of the boards that consequently produce dimensional changes. However, the inner wood layers that are not yet involved in such a process, do not yet shrink or swell, with the consequent internal stresses within the wood thickness causing permanent cupping of the panel [18,20]. It is possible that a first manifestation of such a mechanism occurs with the preparation of the wooden support when a large amount of water is introduced in the panel by means of animal glue and gesso [21]; • Wood ageing: with time, wood loses hemicelluloses from the back surface of the wooden panel towards the inner layers, with a progressive reduction in the hygroscopicity of the surface layer compared to the inner layers [22,23].…”

Section: A) Permanent Deformationmentioning

confidence: 99%

Hygromechanical behaviour of wooden panel paintings: classification of their deformation tendencies based on numerical modelling and experimental results

et al. 2023

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Wooden panel paintings are among the most important historical and artistic artworks from the Middle Ages and the Renaissance period. Currently, they represent a challenge for conservators and scientists who face complex issues related to their conservation. Panel paintings can be considered multilayer objects, that for brevity can be considered to consist of a wooden support and various paint layers. The wooden support is known to be hygroscopic and is continuously seeking hygroscopic equilibrium with the humidity of the environment, thus it tends to deform. Based on various hygroscopic tests carried out on 6 real panel paintings chosen by expert restorers to represent different periods and construction techniques, this paper describes the deformation tendencies of the selected panel paintings. Among possible variables, three most important variables were identified: (a) tree ring orientation of the wooden support, (b) stiffness and (c) emissivity of the paint layers. The internal equilibrium of the forces, governed by the moisture gradients across the thickness of the wood, changes drastically according to the varying characterisation of these factors. To observe their individual contributions, the 6 panel paintings underwent various humidity cycles, were completely free to deform and were always in complete safety. To characterise the stiffness and emissivity of the paint layers, the 6 panel paintings underwent a few humidity cycles with the front face totally waterproofed; thus, the moisture exchange was forced from the back only, and one of the three variables was eliminated. A complex system emerges where the tree ring orientation of the wooden support, the stiffness and emissivity of the paint layers are strongly coupled and determine the deformation modes of the panel paintings. A numerical analysis was conducted to classify the various general deformation modes of panel paintings and the specific classification of the 6 real panel paintings analysed experimentally. The complexity of the interaction of the variables studied suggests that experimental procedures must be conducted in preparation for numerical analyses of real panel paintings.

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“…The double curvature, which can be considered typical of a thin panel painted on only one face and blocked along its four sides, resulted in a central deflection of about 11 mm. It was presumably caused by the many MC variations and gradients, producing complex phenomena that can be globally recalled with the term "compression set" [5], [18], combined with the tendency to warp caused by the orientation of the growth rings and of the direction of the wood grain, and with the distortions produced by the formation of the crack. However, a thorough discussion about the localisation and orientation of the wooden panel inside the log from which it was obtained falls outside the scope of this paper and is presented elsewhere [19,20] Since its making, the panel underwent only few modifications [17], including: (i) the inlay, possibly during the 19 th century, of the two "butterflies", (ii) a light surfacing of the back-face, and (iii) a small width reduction affecting only lateral unpainted parts.…”

Section: The Panelmentioning

confidence: 99%

A method to assess the hygro-mechanical behaviour of original panel paintings, through in situ non-invasive continuous monitoring, to improve their conservation: a long-term study on the Mona Lisa

Uzielli

Dionisi-Vici

Mazzanti

et al. 2022

Journal of Cultural Heritage

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A hygro-mechanical analysis of poplar wood along the tangential direction by restrained swelling test

Cited by 16 publications

References 12 publications

Kinetics of Water Vapor Sorption in Wood Cell Walls: State of the Art and Research Needs

Kinetics of Water Vapor Sorption in Wood Cell Walls: State of the Art and Research Needs

Hygromechanical behaviour of wooden panel paintings: classification of their deformation tendencies based on numerical modelling and experimental results

A method to assess the hygro-mechanical behaviour of original panel paintings, through in situ non-invasive continuous monitoring, to improve their conservation: a long-term study on the Mona Lisa

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