| Zitatschlüssel |
Zitat |
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| Marion.etal:1999 |
Marion, Giles M.; Farren, Ronald E. (1999): Mineral solubilities in the Na-K-Mg-Ca-Cl-SO4-H2O system: a re-evaluation of the sulfate chemistry in the Spencer-Moller-Weare model. In: Geochim. Cosmochim. Acta, 63 (9), 1305-1318 |
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| Marliacy.etal:2000 |
Marliacy, P.; Solimando, R.; Bouroukba, M.; Schuffenecker, L. (2000): Thermodynamics of crystallization of sodium sulfate decahydrate in H2O-NaCl-Na2SO4: application to Na2SO4.cntdot.10H2O-based latent heat storage materials. In: Thermochim. Acta, 344 (1), 85-94 |
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| Marschner:1973 |
Marschner, H. (1973): Laboratoriumsuntersuchungen zum Verwitterungsschutz von Bausteinen. In: Deutsche Kunst- und Denkmalpflege, 31 (1), 32-44 |
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| Marschner:1978 |
Marschner, Hannelore (1978): Application of salt crystallisation test to impregnated stones. In:: RILEM/UNESCO International Symposium on Deterioration and Protection of Stone Monuments, Paris, June 5th-9th, 1978,Unesco-Rilem Paper 3.4. |
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| Marschner:1979 |
Marschner, Hannelore (1979): Application of salt crystallisation test to impregnated stones. In: Researchs in Archaeology and Conservation, (), 70-77, Webadresse |
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| Marschner:1999 |
Marschner, Hannelore (1999): Application of salt crystallisation test to impregnated stones. In: Mishra, Phanikanta (Hrsg.): Researches in archaeology and conservation, , 69-77. |
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| Marsh-Letts:2001 |
Marsh-Letts, Glennda Susan (2001): Salt Movement in Ancient Egyptian Linen. A Preliminary Report.. |
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| Marsh:1926 |
Marsh, I. E. (Hrsg.) (1926): Stone Decay and Its Prevention, Basil Blackwell, Oxford |
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| Marten.etal:2006 |
Marten, Petra; Bretschneider, Anja; Lesnych, Natalja; Venzmer, Helmuth (2006): BIOKOM – Eine mikrobiologisch arbeitende Kompresse zur Entsalzung von Fassadenoberflächen. In: Mauerwerk, 10 (2), 46-53, Webadresse |
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| Martin:1965 |
Martin, S. (1965): The control of conditioning atmospheres by saturated salt solutions. In: Wexler, A. (Hrsg.):, Krieger Publishing Company, 503-506. |
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| Martin:1982 |
Martin, C. (1982): Dessalage d'elements sculpturaux: une etape importante dans la restauration des pierres alveolisees. In: Badan, B. (Hrsg.): 3rd International Congress on the Deterioration and Preservation of Stones, 24-27 October, 1979, Venice, Italy,Universita degli studi. Istituto di chimica industriale, Padova 377-388. |
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| Martinez-Martinez.etal.2021 |
Martinez-Martinez, J.; Torrero, E.; Sanz, D.; Navarro, V. (2021): Salt crystallization dynamics in indoor environments: Stone weathering in the Muñoz Chapel of the Cathedral of Santa María (Cuenca, central Spain). In: Journal of Cultural Heritage, 47 (), 123-132, |
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| Martinez.etal:1992 |
Martinez, Sagrario; Puertas, Francisca; Accion, Fernando (1992): Qualitative and quantitative determination of soluble salts in building materials: proposal of a new analytical method. In: Marabelli, M.; Santopadre, P. (Hrsg.): 3rd International Conference on Nondestructive Testing, Microanalytical Methods and Environment Evaluation for Study and Conservation of Works of Art, 793-808. |
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| Martini:1978 |
Martini, I. P. (1978): Tafoni weathering, with examples of Tuscany Italy. In: Zeitschrift fur Geomorphologie, 1 (), 44-67 |
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| Martinsa.etal:2017 |
Martinsa, J.; Dionisiob A.; Neves, O. (2017): Agar Gel for Ançã Limestone Desalination. In: Procedia Earth and Planetary Science, 17 (), Webadresse |
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| Maruyama.etal:1998 |
Maruyama, K.; Shimomura, T.; Hamada, H. (1998): Degradation Model for Reinforced Concrete Structures Under Salt Attack Environment. In: Gjorv, O. E.; Sakai, K. (Hrsg.): Concrete technology for a sustainable development in the 21st century,London; E&FN Spon; 2000 159-166. |
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| Maslehuddin.etal:1990 |
Maslehuddin, Mohammed; Saricimen, Huseyin; Al-Mana, Abdulaziz I.; Shamim, Mohammed (1990): Performance of concrete in a high chloride-sulfate environment. In: American Concrete Institute, Special Publication, 122 (), 469-494 |
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| Massa.etal:1996 |
Massa, V.; Pizzigoni, G.; Chiavarini, M. (1996): The study of the salts distribution on frescoes. A non-destructive assessment method. In: Zezza, Fulvio (Hrsg.): Origin, Mechanisms and Effects of Salts on Degradation of Monuments in Marine and Continental Environments. European Commission, Research Workshop, Proceedings 25 - 27 March 1996, Bari (Italy), Tecnomack, 385-391. |
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| Massa.etal:1999 |
Massa, Sandro; Pieracci, A. (1999): I danni delle efflorescenze saline nel Palazzo del Tribunale di Perugia = The damages caused by salt crystallization in the Palace of the Tribunale of Perugia. In: I beni culturali, 7 (45), 29-33 |
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| Massari.etal:1993 |
Massari, G.; Massari, I. (Hrsg.) (1993): Damp buildings, old and new |
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| Massey:1999 |
Massey, S. W. (1999): The effects of ozone and NO(x) on the deterioration of calcareous stone. In: Science of the Total Environment, 227 (2), 109-121 |
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| Massey:2000 |
Massey, SW.; Watt, J.; M., Kendall (2000): Fractal Modelling of Particulate Deposition in the Development of Black Crusts on Stone. In: Fassina, V. (Hrsg.): Proc. 9th International Congress on Deterioration and Conservation of Stone, Venice, 19-20 June, 637-646. |
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| Mastromei.etal:1999 |
Mastromei, G.; Biagiotti, L.; Daly, S.; Perito, B.; Tiano, P. (1999): Stone reinforcement by bio-mediated calcite crystal precipitation. In: Ciferri, O.; Tiano, P.; Mastromei, G. (Hrsg.): International Conference on Microbiology and Conservation, 253-256. |
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| Mather:1989 |
Mather, Bryant (1989): Influence of sodium chloride on alkali-silica reaction. Comments. In: Adv. Cem. Res., 2 (5), 35 |
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| Mather:1990 |
Mather, Bryant (1990): A discussion of the paper "The effect of a calcium chloride-based accelerator on alkali-silica reaction," by H. Wang and J. E. Gillott. In: Cem. Concr. Res., 20 (6), 992-3 |
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| Mather:1992 |
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| Mather:1996 |
Mather, Bryant (1996): Ettringite technology. In: Cement and Concrete Research, 26 (11), 1745-1745 |
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Mather, B. (1999): How to make concrete that will not suffer deleterious alkali-silica reaction. In: Cem. Concr. Res., 29 (8), 1277-1280 |
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| Mather:2001 |
Mather, Bryant (2001): Seawater and concrete. In: Concrete International, 23 (7), 8-11 |
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| Mather:2001a |
Mather, Bryant (2001): Crystal growth in entrained-air voids. In: Concrete International, 23 (5), 35-36 |
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| Matsukura.etal:1989 |
Matsukura, Y.; Matsuoka, N.; Yano, N. (1989): A preliminary study on tafoni and honeycombs in Nojimazaki, Boso Peninsula, Japan. In: Annual Report - University of Tsukuba, Institute of Geoscience, 15 (), 29-32 |
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| Matsukura.etal:1996 |
Matsukura, Y.; Kondo, M.; Takaya, Y. (1996): Salt fretting on the valley cliff at To-no-hetsuri, Aizu region. In: Annual Report - University of Tsukuba, Institute of Geoscience, 22 (), 21-24 |
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| Matt:1992 |
Matt, Michael (1992): Idsteiner Schloss: Historische Baufehler repariert - Feuchte Mauer und falsche Statik erfolgreich behoben. In: Bausubstanz, 8 (10), 14-16 |
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| Matteini.etal:1984 |
Matteini, M.; Moles, A. (1984): Twenty years of application of 'barium' on wall paintings: fundamentals and discussion of the methodology. In: Conservation, Comite de L'ICOM pour La (Hrsg.): Preprints of the 7th triennial meeting of the ICOM committee for conservation,ICOM 15-19. |
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| Matteini.etal:1987 |
Matteini, M.; Moles, A. (1987): La metodologia del 'bario' in relazione ai problemi di solfatazione e di decoesione che interessano i dipinti murali. In: Benedin, E. (Hrsg.): Atti del convegno il restauro: nelle opere d'arte. Academia Nazionale Virgiliana,Publi Paolini Ed. 33-53. |
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| Matteini.etal:1990 |
Matteini, Mauro; Moles, Arcangelo (1990): Naturwissenschaftliche Untersuchungsmethoden in der Restaurierung, Callwey |
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| Matteini.etal:1994 |
Matteini, Mauro; Moles, Arcangelo; Giovannoni, Sabino (1994): Calcium oxalate as a protective mineral system for wall paintings: methodology and analysis. In: Zezza, Fulvio; Ott, Heinrich; Fassina, Vasco (Hrsg.): The conservation of monuments in the Mediterranean Bassin: Stone and Monuments: Methodologies for the Analyses of Weathering and Conservation, , proceedings of the 3rd international symposium, Venice, 22-25 June 1994, , 155-162. |
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| Matteini.etal:1994a |
Matteini, M.; Moles, A.; Giovanni, S. (1994): Un sistema protettivo minerale per le pitture murali a base di calcio ossalato: proposta di un metodo e verifiche analitiche. In: OPD Restauro, 6 (), 7-15 |
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| Matteini.etal:1996 |
Matteini, M.; Nepoti, M. R. (1996): Controllo analitico dei metodi di desolfatazione per la rimozione del gesso nelle pitture murali e in altri manufatti litici. In: OPD Restauro, 8 (), 66-79 |
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| Matteini.etal:1996a |
Matteini, M.; Giovannoni, S. (1996): The protective effect of ammonium oxalate treatment on the surface of wall paintings. In:: Restauratorenblatter 16, painted facades: Forschungsproject, EUROCARE 492 muralpaint, Mayer & Comp. |
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| Matteini.etal:1996c |
Matteini, M.,and Nepoti, M. R. (1996): Controllo analitico dei metodi di desolfatazione per la rimozione del gesso nelle pitture murali e in altri manufatti litici. In: OPD Restauro, 8 (), 66-79 |
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| Matteini.etal:2000 |
Matteini, M.; Rizzi, M.; Mairani, A. (2000): Il trattamento di protezione ad 'ossalato di calcio artificiale' della statua marmorea l'Eterno Padre' di Baccio Bandinelli: fondamenti e tecniche. In: OPD Restauro, 12 () |
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| Matteini.etal:2007 |
Matteini, M.; Fratini, F.; Rescic, S. (2007): Carbonatic Lithotypes Passivated with the `Ammonium Oxalate Treatment': Colorimetric and Morphological Study of Treated Surfaces. In: Science and Technology for Cultural Heritage, 16 (1), 129-142 |
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| Matteini.etal:2011 |
Matteini, M.; Rescic, S.; Fratini, F.; Botticelli, G. (2011): Ammonium phosphates as consolidating agents for carbonatic stone materials used in architecture and cultural heritage: Preliminary research. In: International Journal of Architectural Heritage, 5 (6), 717-736, https://doi.org/10.1080/15583058.2010.495445 |
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| Matteini:1991 |
Matteini, Mauro (1991): In Review: An Assessmant of Florentine Methods of Wall Painting Conservation Based on the Use of Mineral Treatments. In: Cather, Sharon (Hrsg.): The Conservation of Wall Paintings: Proceedings of a symposium organized by the Coutrauld Institut of Art and the Getty Conservation Institute, London, July 13-16, 1987, The Getty Conservation Institute, 137-148. |
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| Matteini:1996 |
Matteini, Mauro (1996): Deterioration and conservation of wall paintings: problems and solutions. In: Daolio, S.; Tondello, E.; Alessandro Vigato, P. (Hrsg.):,University of Padova 78-93. |
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| Matteini:1997 |
Matteini, Mauro (1997): A mineral inorganic approach in wall painting conservation. In::,European Commission DG-XII. |
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| Matteini:1999 |
Matteini, Mauro (1999): The conservation of mural paintings: A challenge for conservators. In:: Ninth seminar on the conservation of Asian cultural heritage - conservation of wall paintings in Asia, 134-148. |
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| Matteini:2008 |
Matteini, Mauro (2008): Inorganic Treatments for the Consolidation and Protection of Stone Artefacts and Mural Paintings. In: , 8 (), 13-27 |
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| Matthaei.etal:1957 |
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| Matthess:1990 |
Mattheß, Georg (1990): Lehrbuch der Hydrogeologie 2: Die Beschaffenheit des Grundwassers, Bornträger, Berlin, Stuttgart |
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| Mauricio.etal:1996 |
Mauricio, A.; Aires Barros, L.; Fassina, V.; Cassar, J.; Torpiano, A. (1996): Multivariate data analysis applied to salt efflorescences occurring at Sta. Marija ta' Cwerra church (Malta). In: Zezza, Fulvio (Hrsg.): Origin, Mechanisms and Effects of Salts on Degradation of Monuments in Marine and Continental Environments. European Commission, Research Workshop, Proceedings 25 - 27 March 1996, Bari (Italy), Tecnomack, 393-402. |
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| Mauro.etal:1997 |
Mauro, M.; Guarini, G. G. T.; Dei, L. (1997): A thermal method for quantitative determination of potassium nitrate in wall paintings. In: Science and technology for cultural heritage, 6 (1), 35-41 |
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| Mausfeld.etal:1990 |
Mausfeld, S.; Hoffmann, S.; Ludwig, S. (1990): Sedimentpetrographie und Verwitterungsphänomene des fränkischen Schilfsandsteins von Schloss Schillingsfürst im Vergleich mit bruchfrischem Sander Schilfsandstein. |
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| Mausfeld.etal:1992 |
Mausfeld, Silvin A.; Grassegger, Gabriele (1992): Abbauprozesse an Feldspäten und Tonmineralen unter den Bedingungen der Bauwerksverwitterung. In: Zeitschrift der Deutschen Geologischen Gesellschaft, 143 (), 23-39 |
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| May.etl:1993 |
May, E.; Lewis, F. J.; Pereira, S.; Taylor, S.; Seaward, M. R. D.; Allsopp, D. (1993): Microbial deterioration of building stone – a review. In: Biodeterioration Abstracts, 7 (), 109-123 |
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| Mayer.etal:1995 |
Mayer, Gerhard; Kovácová, D.; Wittmann, Folker H. (1995): Feuchtigkeits- und Salztransport in Mauerwerk und Sanierputz. In: Internationale Zeitschrift für Bauinstandsetzen, (6), 509-524 |
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| Mayer.etal:1996 |
Mayer, G.; Wittmann, F. (1996): Ein Modell zur Beschreibung des Wasser- und Salztransports in Mauerwerk = A mathematical model for the description of water and salt transport in masonry. In: Internationale Zeitschrift für Bauinstandsetzen, 2 (1), 67-82 |
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| Mayer.etal:1996a |
Mayer, G.; Wittmann, F. (1996): Feuchtigkeits- und Salztransport in Mauerwerk bei aufsteigender Feuchte. In: Wittmann, Folker H. (Hrsg.): 4. Internationales Kolloquium 'Werkstoffwissenschaften und Bauinstandsetzen',Technische Akademie Esslingen 955-965. |
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| Mayer.etal:1996c |
Mayer, G.; Wittmann, F. H. (1996): Ein Modell zur Beschreibung des Wasser-und Salztransports in Mauerwerk = A mathematical model for the description of water and salt transport in masonry. In: Internationale Zeitschrift für Bauinstandsetzen = International journal for restoration of buildings and monuments, 2 (1), 67-82 |
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| Mazanetz:1960 |
Mazanetz, Gustav (1960): Erhaltung und Wiederherstellung von Bodenfunden, Verlag für Jugend und Volk |
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Mazor, E.; Mantel Mariana (1966): Epsomite efflorescences and the composition of shallow ground waters in the southern Negev, Israel. In: Israel Journal of Earth Sciences, 15 (), 71-75 |
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| McAllister.etal:2011 |
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| McArthur.etal:1989 |
McArthur, J. M.; Turner, J.; Lyons, W. B.; Thirlwall, M. F. (1989): Salt sources and water-rock interaction on the Yilgarn Block, Australia: isotopic and major element tracers. In: Applied Geochemistry, 4 (1), 79-92 |
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McConnell, J. D. C.; Astill, D. M.; Hall, P. L. (1987): The Pressure-Dependence of the Dehydration of Gypsum to Bassanite. In: Mineralogical Magazine, 51 (361), 453-457, Webadresse |
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McGreevy, J. P. (1985): A preliminary scanning electron microscope study of honeycomb weathering of sandstone in a coastal environment. In: Earth surfaces processes and landforms, 10 (5), 509-518 |
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| Menéndez:2018 |
Menéndez, B. (2018): Estimators of the Impact of Climate Change in Salt Weathering of Cultural Heritage. In: Geosciences, 8 (11), 401, https://doi.org/10.3390/geosciences8110401 |
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Mertah, Eid; Othman, Moamen; Abdelrahman, Mohamed; Fatoh, Mohamed; Connor, S. (2017): Investigation and examination of a degraded Egyptian painted limestone relief from Tell Hebua (Sinai). 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 261-270, 10.5165/hawk-hhg/344. |
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| Meyer:1997 |
Meyer, Hermann (1997): Salze - Sprengstoff für mineralische Baustoffe. In: Naturstein, 51 (), 6 |
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Michette, M.; Viles, H.; Vlachou, C.; Angus, I. (2022): Do environmental conditions determine whether salt driven decay leads to powdering or flaking in historic Reigate Stone masonry at the Tower of London?. In: Engineering Geology, 303 (), Webadresse |
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Middendorf, Bernhard; Just, Armin; Klein, Deborah; Glaubitt, André; Simon, Jana (Hrsg.) (2009): Proceedings 12th Euroseminar on Microscopy Applied to Buildung Materials, 15th - 19th September 2009, Dortmund, Germany, Eigenverlag?, Dortmund |
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Minder-Heng, Valerie; Berteaud, Andre-Jean; Vergès-Belmin, Veronique (1994): Migration de léau dans les roches sous microondes en vue du dessalement des pierres de taille. In: Studies in Conservation, 39 (2), 121-131 |
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