Evaluation of the diffusion coefficient and sorption isotherm of the different layers of early Netherlandish wooden panel paintings

The preservation of early Netherlandish panel paintings gets a lot of attention as they are an important part of the cultural heritage of the lower countries. Indoor humidity fluctuations are the main cause for mechanical damage of these artworks. To estimate the risk of mechanical damage, the inten...

Full description

Saved in:
Bibliographic Details
Published in:Wood science and technology 2018, Vol.52 (1), p.149-166
Main Authors: De Backer, Lien, Laverge, Jelle, Janssens, Arnold, De Paepe, Michel
Format: Article
Language:English
Subjects:
Biomedical and Life Sciences
Ceramics
Composites
Computer simulation
Cultural heritage
Cultural resources
Diffusion coefficient
Diffusion layers
Glass
Life Sciences
Machines
Manufacturing
Mechanical properties
Moisture content
Motivation
Natural Materials
Original
Permeability
Preservation
Pressure
Processes
Transport
Vapor pressure
Variation
Water content
Wood Science & Technology
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The preservation of early Netherlandish panel paintings gets a lot of attention as they are an important part of the cultural heritage of the lower countries. Indoor humidity fluctuations are the main cause for mechanical damage of these artworks. To estimate the risk of mechanical damage, the intention of the authors is to model the moisture transport in the artwork related to a simulated indoor climate. Because the hygrothermal response of the panel is controlled by the vapour permeability of the wood and the barrier effect of different material layers on top and on the back of the wooden panel, hygric material characteristics of all layers are needed to perform reliable simulations of the local moisture content gradients in the object. In the literature, several values were presented which were used to model the mechanical behaviour of the panel painting. The driving potential in these studies is the moisture content of wood. However, for the coupling of a HAM tool, which predicts the moisture transport in the object, with other simulation tools (BES, CFD, etc.), it is more straightforward using one unique and material-independent driving potential in both tools, such as vapour pressure. The conversion of characteristics presented in the literature using vapour pressure instead of moisture content is not straightforward as information about converting the characteristics is missing. Another difficulty is that the obtained quantitative results in the literature are valid for a specific application method. Consequently, it is disputable whether these characteristics may be applied to early Netherlandish panel paintings. Therefore, the main goal of this study is to measure the moisture properties of early Netherlandish panel paintings. The desired characteristics were determined using inverse modelling of a 1D moisture transport and finding the best fit between the calculated diffusion process and the measurements.
ISSN:0043-7719
1432-5225
DOI:10.1007/s00226-017-0949-y