| Zitatschlüssel |
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| Theoulakis.etal:1997 |
Theoulakis, P.; Moropoulou, A. (1997): Microstructural and mechanical parameters determining the susceptibility of porous building stones to salt decay. In: Construction and Building Materials, 11 (1), 65-71 |
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| Theoulakis.etal:1997a |
Theoulakis, P.; Moropoulou, A. (1997): Porous Stone Decay by Salt Crystallization - The Case of The Building Material of The Medieval City of Rhodes. In: Moropoulou, A.; Zezza, F.; Kollias, E.; Papachristodoulou, I. (Hrsg.): 4th International Symposium on the Conservation of Monuments in the Mediterranean,Texniko Enimeahthpio 647-673. |
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| Theoulakis.etal:1999 |
Theoulakis, P.; Moropoulou, A. (1999): Salt crystal growth as weathering mechanism of porous stone on historic masonry. In: Journal of Porous Materials, 6 (4), 345-358 |
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| Thickett.etal:2000 |
Thickett, David; Odhlya, Marianne (2000): Note on the identification of an unusual pale blue corrosion product from Egyptian copper alloy artefacts. In: Studies in Conservation, 45 (1), 63-68 |
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| Thickett.etal:2017 |
Thickett, David; Stanley, Bethan (2017): Management of sodium sulfate damage to polychrome stone and buildings. In: Laue, Steffen (Hrsg.): Proceedings of SWBSS 2017. Fourth International Conference on Salt Weathering of Buildings and Stone Sculptures, University of Applied Sciences Potsdam, Germany, 20-22 September 2017,Verlag der Fachhochschule Potsdam 135-142, 10.5165/hawk-hhg/330. |
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| Thickett:1995 |
Thickett, David (1995): The analysis of salt efflorescence and investigation of the cause of staining of a marble Carpenter relief, MLA OA 10562, Conservation Research Report CA1995/41, The British Museum, London, Webadresse. |
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| Thickett:1998 |
Thickett, David (1998): Sealing of MDF to prevent corrosive emissions. In: The Conservator, 22 (), 49-56 |
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| Thiel:1993 |
Thiel, M.-J. (Hrsg.) (1993): Conservation of stone and other materials, Vol. 1, E&FN SPON, London |
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| Thiersch.etal:2001 |
Thiersch, Katharina; Kraus, Karin (2001): Modellhafte Untersuchung zur Auswirkung von Schadstoffen auf Mörtel sowie beispielhafter Einsatz von Hinterspritz- und Putzergänzungsmörteln am Kloster Heydau. |
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| Thomson.etal:1974 |
Thomson, Garry; White, Raymond (1974): The pH of Rain and the Destruction of Alkaline Stone. In: Studies in Conservation, 19 (3), 190-191 |
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| Thorn.etal:2021 |
Thorn, A.J.; Collie, B.T. (2021): Micro-photogrammetry to monitor salt impact on petroglyphs. In: Lubelli, B.; Kamat, A.A.; Quist, W.J. (Hrsg.): Proceedings of SWBSS 2021 – Fifth International Conference on Salt Weathering of Buildings and Stone Sculptures,TU Delft Open 141-151, Webadresse. |
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| Tiano.etal:1992 |
Tiano, P.; Addadi, L.; Weiner, S. (1992): Stone reinforcement by induction of calcite crystals using organic matrix macromolecules. Feasibility study. In: Rodrigues, J. Delgado; Henriques, Fernando; Jeremias, F. Telmo (Hrsg.): Proceedings of the 7th International Congress on Deterioration and Conservation of Stone, Lisbon Portugal, 15-18 June 1992 ,Laboratorio Nacional de Engenharia Civil 1317-1326. |
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| Tiano.etal:1999 |
Tiano, P.; Biagiotti, L.; Mastromei, G. (1999): Bacterial bio-mediated calcite precipitation for monumental stones conservation: methods of evaluation. In: J. Microbiol. Methods, 36 (1), 139-145 |
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| Tiano.etal:2008 |
Tiano, P.; Pardini, C. (2008): In situ monitoring of monumental surfaces. In:: Proceedings of the International Workshop SMW08, 27.-29. Oktober 2008 in Florenz, edifir, Edizioni Firenze., Edifir, Edizioni Firenze. |
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| Tiano:1995 |
Tiano, P. (1995): Stone reinforcement by calcite crystal precipitation induced by organic matrix macromolecules. In: Studies in Conservation, 40 (3), 171-176 |
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| Tiano:2001 |
Tiano, Piero (2001): Biomediated Calcite Precipitation for Monumental Stones Reinforcement, Project Acronym: Bioreinforce., The European Commision, Community Research; Energy, Environment and Sustainable Development; CNR- Opere Arte, Via G. Capponi 9 - 50121 Firenze, ITALY. |
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| Tinzl:1994 |
Tinzl, Christoph (1994): Removal of salts from lime plaster by means of poulticing, Diplomarbeit, Courtauld Institute of Art, Conservation of Wall Painting Department, London |
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| Tinzl:1996 |
Tinzl, Christoph (1996): Verminderung von Salzkonzentrationen in Kalkmörtel mittels Zellstoffkompressen - Ein Diskussionsbetrag aus restauratorischer Sicht. In: Petzet, Michael (Hrsg.): Salzschäden an Wandmalereien, München: Lipp Verlag, 70-73. |
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| Tishchenko.etal:1992 |
Tishchenko, Pavel Ya.; Bychkov, Alexander S.; Hravéczy-Páll, Andrea; Tóth, Klára; Pungor, Ernoe (1992): Activity Coefficients for the System NaCl + Na2SO4 + H2O at Various Temperatures. Application of Pitzer's Equations. In: Journal of Solution Chemistry, 21 (3), 261-274 |
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| Todorovic.etal:2014 |
Todorović, J.; Janssen, H. (2014): Numerical simulation of gypsum transport and crystallization. In: Hilde De Clercq (Hrsg.): Proceedings of SWBSS 2014 3rd International Conference on Salt Weathering of Buildings and Stone Sculptures,KIK-IRPA, Royal Institute for Cultural Heritage Brussels 133-149, 10.5165/hawk-hhg/273. |
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| Todorović.etal:2018 |
Todorović, J.; Janssen, H. (2018): The impact of salt pore clogging on the hygric properties of bricks. In: Construction and Building Materials, 164 (), 850-863, Webadresse |
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| Toepfer:1997 |
Töpfer, Wolfgang (1997): Entsalzung durch Electrolessivage. In: Naturstein, 51 (4), 63-64 |
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| Toerge.etal:2000 |
Törge, M.; Jann, O.; Pilz, M. (2000): Das Simulieren von Schadstoff- und Klimabelastungen. In: Restauro, 106 (6), 436-441 |
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| Tombers:1991 |
Tombers, J. (1991): Untersuchungen zur Salzverteilung in verbautem Naturstein. Beiträge zum Thema Salzverwitterung und zur Ultraschallmessung an Sandstein. Dissertation, Universität des Saarlandes |
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| Torielli.etal:2016 |
Torielli, G.; Gaggero, L.; Caratto, V.; Ferretti, M. (2016): Innovative Method and Apparatus for Deep Cleaning of Soluble Salts from Mortars and Lithic Materials. In: Energy Procedia, 97 (), 523-530, Webadresse |
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| Torraca.etal:1996 |
Torraca, G.; Burragato, P.; Conti, L.; Fitetici, M. G.; Santarelli, M. L. (1996): Study of calcium oxalates on the surface of the columns of the "Tempio Rotondo" in Rome. In: Realini, M.; Toniolo, L. (Hrsg.): II International Symposium - The oxalate films in the conservation of the works of art, 167 - 176. |
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| Torraca:1969 |
Torraca, Giorgio (1969): Actual state of the knowledge on stone deterioration; Causes and treatments; Sculptures in the open air. In:: Deterioration of materials and conservation problems: Exhibition and scientific congress, ferrara-Bologna, 1969,Ente bolognese manifestazioni artistiche 9-30. |
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| Torraca:1976 |
Torraca, Giorgio (1976): Brick, Adobe, Stone and Architectural Ceramics: Deterioration Processes and Conservation Practices. In:: Proceedings of the North American International Regional Conference 1972. Washington,D.C., Preservation and Conservation: Principles and Practices, , 143-165. |
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| Torraca:1982 |
Torraca, Giorgio (Hrsg.) (1982): Porous Building Materials. Materials Science for Architectural Conservation. 2nd ed., ICCROM, International Centre for the Study of the Preservation and Restoration of Cultural Property, Rome, Rome |
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| Torraca:1984 |
Torraca, Giorgio (Hrsg.) (1984): Cementitious materials and technologies: choice of materials depending on the nature of the intervention (Materiali cementizi e tecnologie: scelta dei materiali in funzione del tipo d'intervento [Italian]), Associazione italiana tecnico economica del cemento, Roma |
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| Torraca:1986 |
Torraca, Giorgio (1986): Poröse Baustoffe. Eine Materialkunde für die Denkmalpflege. Übersetzt, bearbeitet und ergänzt von Johannes Weber |
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| Torraca:1988 |
Torraca, Giorgio (Hrsg.) (1988): Porous Building Materials, ICCROM, Rome |
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| Townsend.etal:2016 |
Townsend, E.R.; Swennenhuis, F.; Van Enckevort, W.J.P.; Meijer, J.A.M.; Vlieg, E. (2016): Creeping: An efficient way to determine the anticaking ability of additives for sodium chloride. In: Cryst. Eng. Comm., 18 (33), 6176-6183, https://doi.org/10.1039/C6CE01376G |
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| Trampedach:1997 |
Trampedach, Kirsten (1931): Lime-based materials used in the conservation of wall paintings in Denmark. In: Sighisoara, Romania (Hrsg.): Western medieval wall paintings: Studies and Conservation Experience, 31. August - 3. September 1995,ICCROM 79-84. |
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| Traquair:1987 |
Traquair, J. A. (1987): Backscattered Electron Imaging as a Tool for Histochemically Localizing Calcium-Oxalate with the Scanning Electron-Microscope. In: Canadian Journal of Botany, 65 (5), 888-892, 10.1139/b87-122 |
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| Trentelman.etal:2002 |
Trentelmann, K.; Stodulski, L.; Scott, D.; Back, M.; Stock, S.; Strahan, D.; Drews, A.R.; O'Neill, A.; Weber, W.H.; Chen, A.; Garrett, S.J. (2002): The characterization of a new pale blue corrosion product found on copper alloy artifacts. In: Studies in Conservation, 47 (4), 217-227, 10.2307/1506782 |
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| Tricart:1954 |
Tricart, J. (1954): Influence des sols salees sur la deflation eolienne en basse mauritanie et dans le Delta du Senegal. In: Revue de Geomorphologie Dynamique, 5 (), 124-132 |
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| Tricart:1960 |
Tricart, J. (1960): Experiences de desagregation de rouches granitiques par la cristallisation du sel marin. In: Zeitschrift für Geomorphologie, 1 (), 239-40 |
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| Troeger:1969 |
Tröger, Walter E. (Hrsg.) (1969): Optische Bestimmung der gesteinsbildenden Minerale. Teil 2: Textband, 2. Aufl., Schweizerbart'sche Verlagsbuchhandlung, Stuttgart |
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| Troeger:1982 |
Tröger, Walter E. (Hrsg.) (1982): Optische Bestimmung der gesteinsbildenden Minerale. Teil 1: Bestimmungstabellen, 5., neubearb. Aufl. |
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| Trudgill.etal:1992 |
Trudgill, S. T.; Viles, H. A.; Cooke, R. U.; Inkpen, R. J.; Heathwaite, A. L.; Houston, J. (1992): Trends in stone weathering and atmospheric pollution at St Paul's Cathedral, London, 1980-1990. In: Atmospheric Environment, Part A, 26 (9), 1801 |
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| Tsui.etal:2003 |
Nicolas Tsui; Robert J. Flatt; George W. Scherer (2003): Crystallization damage by sodium sulfate. In: Journal of Cultural Heritage, 4 (2), 109-115, Webadresse, https://doi.org/10.1016/S1296-2074(03)00022-0 |
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| Tsukamoto:1985 |
Tsukamoto, K.; Sunagawa, I. (1985): In situ observation of monomolecular growth steps on crystal growing in aqueous solution. In: Journal of Crystal Growth, 71 (1), 183-190, Webadresse |
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| Turkington.etal:2000 |
Turkington, A. V.; Smith, B. J. (2000): Observations of three-dimensional salt distribution in building sandstone. In: Earth Surface Processes and Landforms, 25 (12), 1317-1332, 10.1002/1096-9837(200011)25:12<1317::AID-ESP140>3.0.CO;2-# |
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| Turkington:1998 |
Turkington, A. V. (1998): Cavernous weathering in sandstone: Lessons to be learned from natural exposure. In: Quarterly Journal of Engineering Geology, 31 (4), 375-383, Webadresse, 10.1144/?GSL.QJEG.1998.031.P4.11 |
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| Turkington:1999 |
Turkington, Alice Victoria (1999): The durability of sandstone in salt-rich environments. Dissertation, PhD-Thesis, Queen's University of Belfast (Northern Ireland), Webadresse |
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| Tuthill:1936 |
Tuthill, L. H. (1936): Resistance of cement to corrosive action of solutions of sodium sulphate. In: Journal Proceedings, 33 (11), 83-106 |
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| Twilley:1984 |
Twilley, John (1984): The relationship of microstructure to treatment variables in the consolidation of limestone with barium compounds. In:: Preprints of the 12th Annual Meeting of the American Institute for Conservation of Historic and Artistic Works, Los Angeles, California, 15-20 May 1984,American Institute for Conservation,Washington 79-85. |
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| Tworek:1965 |
Tworek, D. (1965): Destruction of Wall Paintings Provoked by the Action of Non-Organic Salts. In: Biblioteka Muzealnictwa, 11 (), 165-179 |
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| Tywoniak.etal:1991 |
Tywoniak, J.; Prazak, J.; Slonc, T.; Peterka, F. (1991): Feuchtemessungen mittels Neutronenradiographie. In: Bautenschutz&Bausanierung, 14 (2), 20-23 |
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