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Treatment and Analysis of a Paint Chip from “Water Lilies” a Fire Damaged Monet

Published online by Cambridge University Press:  21 March 2011

Sharon K.R. Miller ,
Bruce A. Banks  and
Greg Tollis
Sharon K.R. Miller
Affiliation:
NASA Glenn Research Center, 21000 Brookpark Rd. MS 309-2 Cleveland, OH 44135, U.S.A. Cleveland, OH 44115, U.S.A.
Bruce A. Banks
Affiliation:
NASA Glenn Research Center, 21000 Brookpark Rd. MS 309-2 Cleveland, OH 44135, U.S.A. Cleveland, OH 44115, U.S.A.
Greg Tollis
Affiliation:
Cleveland State University
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Abstract

A museum fire in 1958 severely damaged a Monet “Water Lilies” (1916-1926) painting that was on display. The surface of the painting is very dark with areas of blistering and charring. Over the years, traditional techniques have been found to be ineffective at removal of the soot and char from the surface. The painting, which is now in the care of the New York University (NYU) Conservation Center of the Institute of Fine Arts, was the subject of a study to determine if atomic oxygen treatment could remove the soot and char without damaging the fragile painting underneath. For test purposes, a small chip of paint was removed from the edge of the painting by a conservator at NYU and supplied to NASA Glenn Research Center for atomic oxygen treatment and analysis. The diffuse spectral reflectance, at three locations on the paint chip, was monitored at intervals during the atomic oxygen treatment process. Photo documentation of the chip during treatment was also performed. The color contrast was calculated from the spectral reflectance data as a function of treatment duration. Results of the testing indicated that the contrast improved as a result of the treatment, and the differentiation of colors on the surface was significantly improved. Soot and char could be removed without visibly affecting the gross surface features such as impasto areas. These results indicate the feasibility for the treatment of the “Water Lilies” painting.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 712: Symposium II – Materials Issues in Art and Archaeology VI , 2002 , II1.3
Copyright
Copyright © Materials Research Society 2002

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References

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