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344 (in German).
344 (in German).


Steiger, M. 2000 Total volumes of crystalline solids and salt solutions. In: Price C.
[[literture:Steiger:2000|Steiger, M. 2000 ]] Total volumes of crystalline solids and salt solutions. In: Price C.
(ed) An expert chemical model for determining the environmental conditions needed
(ed) An expert chemical model for determining the environmental conditions needed
to prevent salt damage in porous materials. European Commission, Project ENV4-
to prevent salt damage in porous materials. European Commission, Project ENV4-
CT95-0135 (1996-2000), Research Report 11, 53-63.
CT95-0135 (1996-2000), Research Report 11, 53-63.

Version vom 1. Dezember 2009, 09:44 Uhr

Heiner Siedel (2008): Salt-induced alveolar weathering of rhyolite tuff on a building: causes and processes.- In: Danmarks Tekniske Universitet DTU (eds.): Salt Weathering on Buildings and Stone Sculpture. Proceeding of the conference in Copenhagen 22-24 October 2008, pp. 79-88


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Die vollständige Publikation finden sie unter Datei:Alveolar Copenhagen 2008.pdf

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Zitierte Literatur

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Jeannette, D. 1980 Les grès du château du Landsberg : exemple d'évolution des ‘grès Vosgiens’ en milieu rural. Science Géol. Bulletin 33 (2), 111-118 (in French).

Juling, H., Kirchner, D., Brüggerhoff, S., Linnow, K., Steiger, M., El Jarad, A., Gülker, G. 2004 Salt damage of porous materials: A combined theoretical and experimental approach. In: Kwiatkowski, D. & Löfvendahl, R. (eds): Proceedings 10th International Congress on Deterioration and Conservation of Stone, ICOMOS Sweden, Stockholm 1, 187-194.

Klemm, W., Siedel, H. 2002 Evaluation of the origin of sulphate compounds in building stone by sulphur isotope ratio. Geological Society, London, Special Publications 205, 419-430.

Mustoe, G. 1982 The origin of honeycomb weathering. Geological Society of America Bulletin 93, 108-115.

Quayle, N.T.J 1992 Alveolar decay in stone – its possible origin. In: Delgado Rodrigues, J., Henriques F. & Jeremias F.T. (eds): Proceedings 7th International Congress on Deterioration and Conservation of Stone, Laboratório Nacional de Engenharia Civil, Lisbon, 1, 109-118.

Rodriguez-Navarro, C., Doehne, E., Sebastian, E. 1999 Origins of honeycomb weathering: The role of salt and wind. Geological Society of America Bulletin 111 (8), 1250-1255.

Rothert, E., Eggers, T., Cassar, J., Ruedrich, J., Fitzner, B., Siegesmund, S. 2007 Stone properties and weathering induced by salt crystallization of Maltese Globigerina Limestone. Geological Society, London, Special Publications 271, 189-198.

Siedel, H. 2008 Alveolar weathering of Cretaceous building sandstones on monuments in Saxony, Germany. Geological Society, London, Special Publications (in press).

Siedel, H. 2006 Sächsische “Porphyrtuffe” aus dem Rotliegend als Baugesteine: Vorkommen und Abbau, Anwendung, Eigenschaften und Verwitterung. Berichte Institut für Steinkonservierung Mainz 22, 47-57 (in German).

Siedel, H. 1998 Zur Verwitterung des Rochlitzer Porphyrtuffs an der Kunigundenkirche in Rochlitz. Jahresberichte Steinzerfall-Steinkonservierung 6 (1994-1996) 335- 344 (in German).

Steiger, M. 2000 Total volumes of crystalline solids and salt solutions. In: Price C. (ed) An expert chemical model for determining the environmental conditions needed to prevent salt damage in porous materials. European Commission, Project ENV4- CT95-0135 (1996-2000), Research Report 11, 53-63.