The Use of Hydrogels in the Treatment of Metal Cultural Heritage Objects

Currently gels are widely used in the restoration of paintings, graphic arts, stuccowork and stonework, but their use in metal restoration is less widespread. In this study, several polysaccharide-based hydrogels (agar, gellan and xanthan gum) were selected for use in metal treatments. The use of hydrogels allows to localize a chemical or electrochemical treatment. This paper presents several examples of treatment of metal objects of cultural heritage, i.e., historical or archaeological objects. The advantages, disadvantages and limits of hydrogel treatments are discussed. The best results are obtained for the cleaning of copper alloys via associating an agar gel with a chelating agent (EDTA (ethylenediaminetetraacetic acid) or TAC (tri-ammonium citrate)). The hot application allows to obtain a peelable gel, particularly adapted for historical objects. Electrochemical treatments using hydrogels have been successful for the cleaning of silver and for the dechlorination of ferrous or copper alloys. The use of hydrogels for the cleaning of painted aluminum alloys is possible but it has to be coupled with mechanical cleaning. However, for the cleaning of archaeological lead, the cleaning using hydrogels was not very effective. This paper shows the new possibilities of using hydrogels for the treatment of metal cultural heritage objects: agar is the most promising hydrogel.

Automated summary

In this study, polysaccharide-based hydrogels such as agar, gellan and xanthan gum were used for metal treatments, providing advantages for targeted chemical or electrochemical treatment. The use of these hydrogels in the restoration of metal cultural heritage objects was explored, with agar gel achieving the best results for cleaning copper alloys. Electrochemical treatments using hydrogels were successful in cleaning silver and dechlorinating ferrous or copper alloys. However, hydrogels were less effective in cleaning archaeological lead. These findings highlight the potential of hydrogel treatments in metal restoration.