[ { "id": 216156, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-2002", "page_number": 455, "title": "RAS-2002", "content_text": "389\n\nthe controversy is called The Ravished Image: or How to Ruin Masterpieces by Restoration (Walden 1985). Recent well-known examples are Leonardo da Vinci's Last Supper (Barcilan, 2001) and the Sistine Chapel (Pietrangeli, 1994). The conservators removed all the previous repairs to reveal the artist's work with the result that a lot less pigment is on display now.\n\nThere are several things conservators can do to restore colour, two being:\n\n* Conservators can leave the repair unpainted; this can often stand out too strongly, detracting from the artefact. Conservators can paint the infill a constant bland colour, usually similar but slightly lighter than the artefact's colour, and\n\n* We can try to recreate the patterns, shadings and textures of the original, making the gap fill almost invisible. The profession does not like to restore an artefact, i.e. making it brand new\n\nThe latter is very time-consuming and it is often the case that the time spent making an artefact look good is better spent saving another artefact.\n\nMany artefacts come to the laboratory suffering from an irreversible chemical reaction that we have to stabilise. Examples of this sort of treatment include the following.\n\nArchaeological iron usually contains a large amount of chloride salts. If these are not removed by prolonged soaking in chemicals, the object falls apart. Very deleterious rust forms (chemically: beta iron oxy-hydroxide) as an artefact changes its environment from burial to museum. Untreated iron only has a half life of eight to eleven years (Keene and Orton 1985).\n\nIf archaeological bronzes or as we prefer to say copper alloy (as bronze is a specific alloy of copper and tin) contain too many chloride salts, a corrosion product forms known as bronze disease that can turn the artefact, ultimately, to a light green powder. This corrosion product can be stabilised by removing as much as possible of the offending corrosion product and stabilising the damaged areas with silver oxide.", "txt_file_path": "txt/dfo323lmgvd/RAS-2002.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/mp4901278", "rank": 0 }, { "id": 216158, "series_id": 26, "series_slug": "histsyn-rashkb-journal-engine", "series_title": "RASHKB Journal 皇家亞洲學會香港分會學刊", "series_use_hku_proxy": false, "document_key": "RAS-2002", "page_number": 457, "title": "RAS-2002", "content_text": "391\n\nOne of the prime roles for a museum is to preserve the past for future generations. The author hopes that, from this article, you have gathered some idea of the work that goes on behind the scenes in museums both here and overseas.\n\nThe Conservation Section maintains a bilingual web site at http://www.lcsd.gov.hk/CE/Museum/Conservation/index.html where the reader can gain further insights into our work.\n\nREFERENCES\n\nBryne, L. St G., The corrosion of shells in Cabinets, Journal of Conchology, 9, (1899), 172-8, 253-4.\n\nKeene, S., and Orton, C., Stability of treated archaeological iron: an assessment, Studies in Conservation, 30, (1985), 136-142.\n\nLeonardo: The Last Supper, by Pinin Brambilla Barcilan and Maroni P.C., University of Chicago Press, Chicago 2001.\n\nRavished Image or How to Ruin Masterpieces by Restoration, by Sarah Walden, St. Martin's Press, New York 1985.\n\nSistine Chapel: a Glorious Restoration, by Carlo Pietrangeli (Ed.), Abradale Press, New York, 1994.", "txt_file_path": "txt/dfo323lmgvd/RAS-2002.txt", "external_url": "https://digitalrepository.lib.hku.hk/catalog/mp4901278", "rank": 0 } ]