Abstract
Wooden artefacts embrace wide-ranging types of objects, like paintings on panel, sculptures, musical instruments, and furniture. Generally, in the manufacturing process of an artwork, wood is firstly treated with organic and inorganic materials to make it nonporous and morphologically homogeneous, and, at last, the surface treatment consists of varnishes or coatings applied with the aims of conferring aesthetic properties and protecting wood from biological growth and external degradation agents, as well as mechanical damage. In this work, different wooden mock-ups were prepared by varying some parameters: concentration of filler and pigment, respectively, in the ground and paint layers, thickness of the protective varnish coat, and sequence of the layers. The mock-ups were subsequently exposed to time-varying artificial aging processes. The multi-analytical non-invasive approach involved spectroscopic (reflection FT-IR, Raman, and X-ray fluorescence), tomographic (optical coherence tomography) and colorimetric techniques. Data were interpreted using both univariate and multivariate methods. The aim was to evaluate potential and limits of each non-invasive technique into the study of different stratigraphies of wooden artworks. This approach was supported by microscopic observations of cross-sections obtained from selected mock-ups. The methodological approach proposed here would add valuable technical know-how and information about the non-invasive techniques applied to the study of wooden artworks.
Highlights
Wood is a multifaceted material that has been employed to realize several classes of artworks since prehistory, such as paintings on panel, sculptures, musical instruments, or furniture, and, today, these artefacts can be considered one of the most important classes of our common heritage [1]
Optical Coherence Tomography (OCT) examinations allowed us to non-invasively measure the thickness of the coats lying above the wood support in the stratigraphies
X-ray Fluorescence (XRF) results related to Fe (Figure 9d) appeared to be strongly affected by the hematite concentration in the paint layer and by the presence of a protective film
Summary
Wood is a multifaceted material that has been employed to realize several classes of artworks since prehistory, such as paintings on panel, sculptures, musical instruments, or furniture, and, today, these artefacts can be considered one of the most important classes of our common heritage [1]. Different studies have been carried out by international research groups, with the aim of better clarifying treatments of wood, procedures to increase its performance, as well as materials used in the diverse coats (paints, varnishes, grounds, etc.) [3,4,5,6,7] These scientific results have been generally compared to the historic literature, where recipes and construction processes are described [8,9]. The application of surface coatings concerns a colored film (paint) in the case of polychrome artefacts [5,8,32,36] and a transparent and translucent coat (varnish) in the furniture and musical instrument fields [34,37,38,39] This treatment includes the external organic coats, aimed at protecting the artwork from the environmental degradation agents. It is worth reporting that, in violins and other instruments in the family of the modern string quartet, the finishing treatments have a significant impact on the tone qualities [41]
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