Abstract
Terpenoid resins have been mainly used as components of pictorial varnishes and binding media from ancient times. In such latest instances, the resin is mixed with pigments affecting its physical and chemical properties. A new procedure based on gas chromatography–mass spectrometry (GC/MS) has been applied, in this work, in combination with Fourier transform infrared spectroscopy (FTIR), with the aim of determining the changes undergone by di- and triterpenoid resins employed as components of binding media. The GC/MS method is based on the derivatisation of these resins using trimethylsilylimidazol. Characterization of the main components of the di- and triterpenoid fractions and their oxidised products, occurring in the diterpenoid resin colophony and a triterpenoid Mexical copal ( Bursera cuneata (Schl) Engl.), has been achieved. Artificially photoaged specimens of pure resin and binary systems pigment + resin prepared as thin films using lead white, ochre yellow, umber raw and verdigris have also been analysed to study the changes undergone by the di- and triterpenoid components of the resins. Oxidation processes taking place on di- and triterpenoids during photoageing are described. Moreover, the results obtained indicate that pigments have a different effect on the two studied resins. Thus, the presence of pigments induces, in general, a catalysing effect on the oxidative polymerisation reactions in the earliest stages of the natural curing of the paint films whereas a loss of the catalysing effectiveness, in particular, for verdigris containing specimens, is observed during photoageing. Complexation of diterpenoid molecules with copper(II) ions in the earliest stages of the curing has also been evidenced by FTIR analysis.
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