Indexed in SCOPUS - Ever since their discovery in 1991 carbon nanotubes (CNTs) have inspired scientists and developers of future technologies. They feature an electrical conductivity similar to copper, a thermal conductivity similar to diamond, and a modulus more than hundred times greater than steel. Many companies are working intensively on the development of CNT technology and applications. New catalysts have been developed which are capable of forming the tiny and thin-walled carbon nanotubes without any impurities. Based on these new industrial processes, cost efficient mass production has become viable. Perhaps one of the greatest technological potentials of CNTs at the present time lies in their electrical and thermal properties. CNTs are not only extremely light and robust, but can also efficiently heat up surfaces of any size utmost evenly with very rapid thermal response which can guarantee ultra-steady temperatures over large surface areas as well as short heating and cooling times. In order to use these properties in art conservation, the IMAT-project has been launched. The project is supposed to create a series of innovative and highly accurate mild and flexible heating devices for the conservation of various kinds of cultural heritage.
Carbon nanotubes in art conservation / H. Meyer; K. Saborowsky; T. Markevicius; N. Olsson; R. Furferi; M. Carfagni. - In: INTERNATIONAL JOURNAL OF CONSERVATION SCIENCE. - ISSN 2067-533X. - STAMPA. - 4(Special Issue 5):(2013), pp. 633-646.
Carbon nanotubes in art conservation
FURFERI, ROCCO;CARFAGNI, MONICA
2013
Abstract
Indexed in SCOPUS - Ever since their discovery in 1991 carbon nanotubes (CNTs) have inspired scientists and developers of future technologies. They feature an electrical conductivity similar to copper, a thermal conductivity similar to diamond, and a modulus more than hundred times greater than steel. Many companies are working intensively on the development of CNT technology and applications. New catalysts have been developed which are capable of forming the tiny and thin-walled carbon nanotubes without any impurities. Based on these new industrial processes, cost efficient mass production has become viable. Perhaps one of the greatest technological potentials of CNTs at the present time lies in their electrical and thermal properties. CNTs are not only extremely light and robust, but can also efficiently heat up surfaces of any size utmost evenly with very rapid thermal response which can guarantee ultra-steady temperatures over large surface areas as well as short heating and cooling times. In order to use these properties in art conservation, the IMAT-project has been launched. The project is supposed to create a series of innovative and highly accurate mild and flexible heating devices for the conservation of various kinds of cultural heritage.
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