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Venice: Stone Material Behaviour in Connection with the Environment

Published online by Cambridge University Press:  28 February 2011

G. Biscontin ,
V. Fassina ,
P. Miaravelaki  and
E. Zendri
G. Biscontin
Affiliation:
Dipartimento di Scienze Ambientali -Universita di Venezia, Italy
V. Fassina
Affiliation:
Laboratorio Scientifico della Soprintendenza ai Beni Artistici e Storici di Venezia, Italy
P. Miaravelaki
Affiliation:
Scholarship holder of the State Scholarships Foundation of Greece, Greece
E. Zendri
Affiliation:
Dipartimento di Scienze Ambientali -Universita di Venezia, Italy
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Abstract

The present study is directed to summarize several studies carried out in the recent past on stone decay processes taking place in the lagoon environment of Venice. The behaviour of the main types of stones used in Venetian buildings has been considered.

Istrian stone, Verona red stone and Carrara marble were studied.

The knowledge of the porosity and of the pore size distribution can contribute to clarify the physical transformation of decayed materials.

The research determined the morphology of stone decay processes for the different types of stone.

As far as the morphology of deterioration is concerned, there are two main types of decay which depend on the intrinsic properties of the stone: chemical-mineralogical composition and texture-structure.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 185: Symposium G – Materials Issues in Art and Archaeology II , 1990 , 253
Copyright
Copyright © Materials Research Society 1990

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References

1. Marchesini, L., in Proceedings of XLIX Riunione della Societa Italiana peril Progresso delle Scienze, Siena 1967.Google Scholar
2. Biscontin, G., Fassina, V. and Zendri, E., in The conservation of monuments in the Mediterranean Basin, Bari June 1989 (in press).Google Scholar
3. Fassina, V., Atmos. Environ. 12, 2205 (1978).Google Scholar
4. Fassina, V., in The Engineering Geology of Ancient Works, Monuments and Historical Sites, edited by Marinos, P.G. and Koukis, G. (Proceeding of an International Symposium organized by the Greek National Groups of IAEG, Athens 1988), pp. 787796.Google Scholar
5. Lazzarini, L., in Atti dei Conveqni, edited by Associazione Civica Venezia Serenissima, Venice 1979, pp. 4758.Google Scholar
6. Lazzarini, L., Centro di Studio Cause di Deperimento e Metodi di Conservazione delle Opere d'Arte, edited by CNR, 17, Roma 1972.Google Scholar
7. Amoroso, G.G. and Fassina, V., Stone Decay and Conservation, Elsevier Science Publishers, Amsterdam 1983, p. 453.Google Scholar
8. Marchesini, L., Biscontin, G. and Frascati, S., Centro di Studio sulle Cause di Deperimento e Metodi di Conservazione delle Opere d'Arte, edited by CNR, 19, Roma 1972.Google Scholar
9. Biscontin, G., Marchesini, L. and Frascati, S., in ler Colloque International sur la Déterioration des Pierres en Oeuvre, proceedings, La Rochelle 1972, pp. 193199.Google Scholar
10. Marchesini, L., Acqua e Aria, III (1970), 2226.Google Scholar
11. Lazzarini, L., in Conservazione dei Monumenti, edited by XXIX Congresso Nazionale A.T.I., 1974, Florence, pp. 7778.Google Scholar
2. Lazzarini, L., in Die Skulpturen von San Marco in Venedig, ed. Wolthers, , Berlin, 1979, pp. 5865.Google Scholar