Old Masters used paints containing mixtures of oils and proteins, but we lack an understanding on how and why proteins were used. Here, the authors use egg yolk in combination with two pigments to evaluate how different repartition of proteinaceous binder can be used to control the flow behaviour as well as drying kinetics and chemistry of oil paints.Old Masters like Botticelli used paints containing mixtures of oils and proteins, but "how" and "why" this was done is still not understood. Here, egg yolk is used in combination with two pigments to evaluate how different repartition of proteinaceous binder can be used to control the flow behavior as well as drying kinetics and chemistry of oil paints. Stiff paints enabling pronounced impasto can be achieved, but paint stiffening due to undesired uptake of humidity from the environment can also be suppressed, depending on proteinaceous binder distribution and colloidal paint microstructure. Brushability at high pigment loading is improved via reduction of high shear viscosity and wrinkling can be suppressed adjusting a high yield stress. Egg acts as antioxidant, slowing down the onset of curing, and promoting the formation of cross-linked networks less prone to oxidative degradation compared to oil alone, which might improve the preservation of invaluable artworks.
A holistic view on the role of egg yolk in Old Masters' oil paints
Duce, CeliaSecondo
;Bonaduce, Ilaria
;
2023-01-01
Abstract
Old Masters used paints containing mixtures of oils and proteins, but we lack an understanding on how and why proteins were used. Here, the authors use egg yolk in combination with two pigments to evaluate how different repartition of proteinaceous binder can be used to control the flow behaviour as well as drying kinetics and chemistry of oil paints.Old Masters like Botticelli used paints containing mixtures of oils and proteins, but "how" and "why" this was done is still not understood. Here, egg yolk is used in combination with two pigments to evaluate how different repartition of proteinaceous binder can be used to control the flow behavior as well as drying kinetics and chemistry of oil paints. Stiff paints enabling pronounced impasto can be achieved, but paint stiffening due to undesired uptake of humidity from the environment can also be suppressed, depending on proteinaceous binder distribution and colloidal paint microstructure. Brushability at high pigment loading is improved via reduction of high shear viscosity and wrinkling can be suppressed adjusting a high yield stress. Egg acts as antioxidant, slowing down the onset of curing, and promoting the formation of cross-linked networks less prone to oxidative degradation compared to oil alone, which might improve the preservation of invaluable artworks.File | Dimensione | Formato | |
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