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Rhyl-Svendsen.etal:2002 Rhyl-Svendsen, Morten; Glastrup, Jens (2002): Corrosivity measurements of indoor museum environments using lead coupon as dosimeters. In: Journal of Cultural Heritage, 9 (3), 285-293
Richardt:2002 Richardt , Katharina (2002): Kompressenentsalzung – Mechanismen der Salzbindung an mineralische Zusätze , Diplomarbeit, Universität Hannover, Institut für Mineralogie, file:Katharina Richard Diplom.pdf
Riecke:1912 Riecke, E. (1912): Zur Erniedrigung des Schmelzpunktes durch einseitigen Zug oder Druck. In: Zentralblatt für Mineralogie, Geologie und Paläontologie, (), 97-104
Riederer.etal:1993 Riederer, J.; Beeger, D.; Kuehne, E. (1993): Verwendung, Zerfall, und Konservierung von Naturstein in Architektur und Plastik - Bibliographie der im Zeitraum von 1986 bis 1990 erschienenen Veröffentlichungen. In: Berliner Beiträge zur Archäometrie, 12 (), 115-202
Riederer:1988 Riederer, J. (Hrsg.) (1988): Bibliography on cleaning stone and the removal of salts from stone. Bibliography on stone conservation 1986, 1987, 1988
Riederer:1988a Riederer, Josef (1988): The decay and conservation of marbles on archaeological monuments. In:: NATO advanced workshop on Marble in ancient Greece and Rome; May 9-13, Il Ciocco, Lucca, Italy,Petrology, igneous and metamorphic 465-474.
Riederer:1992 Riederer, Josef (1992): Die Salzschäden am Deutschen Dom in Berlin. In: Bautenschutz + Bausanierung, 15 (5), 54-56
Riederer:1992a Riederer, Josef (1992): Bibliographie über Salze im Mauerwerk. In: Berliner Beiträge zur Archäometrie, 11 (), 312-326
Riederer:1996 Riederer, Josef (Hrsg.) (1996): Proceedings of the 8th International Congress on Deterioration and Conservation of Stone, Berlin
Rieke:1894 Rieke, E. (1894): Über das Gleichgewicht zwischen einem festen, homogenen deformierten Körper und einer flüssigen Phase, insbesondere über die Depression des Schmelzpunktes durch einseitige Spannung. In: Nachrichten von der K. Gesellschaft der Wissenschaften zu Göttingen, (), 278-284
Rijniers.etal:2000 Rijniers, L.; Pel, L.; Kopinga, K. (2000): Transport and relaxation of Na ions in porous materials. In:: Proceedings of the 15th European Experimental NMR Conference, Leipzig,.
Riley.etal:1996 Riley, Kenneth W.; Heiman, J. L. (1996): Water and salt migration through a sandstone coping. In: Materials and structures, 29 (191), 436-443
Riminesi.etal:2017 Riminesi, Cristiano; Olmi, R. (2017): Diagnostics and monitoring of moisture and salt in porous materials by evanescent field dielectrometry. 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 49-56, 10.5165/hawk-hhg/320.
Rinaudo.etal:1985 Rinaudo, C.; Robert, M.; Lefaucheux, F. (1985): Growth and characterization of gypsum crystals. In: Journal of Crystal Growth, 71 (3), 803-806, 10.1016/0022-0248(85)90396-3
Rinaudo.etal:1989 Rinaudo, C.; Franchini-Angela, M. (1989): Curvature of gypsum crystals induced by growth in the presence of impurities. In: Mineralogical magazine, 53 (372), 479-482, Webadresse, 10.1180/minmag.1989.053.372.08
Rinne.etal:1934 Rinne, F.; Berek, M. (Hrsg.) (1934): Anleitung zu optischen Untersuchungen mit dem Polarisationsmikroskop
Rivas.etal:2010 Rivas, T.; Alvarez, E.; Mosquera, M.J.; Alejano, L.; Taboada, J. (2010): Crystallization modifiers applied in granite desalination: The role of the stone pore structure. In: Construction and Building Materials, 24 (5), 766-776, Webadresse, https://doi.org/10.1016/j.conbuildmat.2009.10.031
Rivas.etal:2017 Rivas, T.; Feijoo, J.; de Rosario, I.; Taboada, J. (2017): Use of Ferrocyanides on Granite Desalination by Immersion and Poultice-Based Methods. In: International Journal of Architectural Heritage, 11 (4), 588-606, Webadresse
Roberts:1977 Roberts, N. K. (1977): An electropotential method of locating salts in old buildings and its application at Port Arthur. In: Search 8, 11/12 (), 430-432
Robertson:1985 Robertson, W. D. (1985): A three dimensional description of the pore structure in limestone. In: Félix, G. (Hrsg.): 5th International Congress on the Deterioration and Conservation of Stone, Lausanne, 1985,Presses Polytechniques Romandes, Lausanne 87-92.
Robie.etal:1978 Robie R.A., Hemingway B.S.; Fisher J.A. (1978): Thermodynamic properties of minerals and related substances at 298.15 K and 1 bar pressure and higher temperatures. In: U.S. Geol. Surv. Bull, 1452 ()
Robinson.etal:1982 Robinson, D. A.; Williams, R. B. G. (1982): Salt weathering of rock specimens of varying shape. In: Area, 14 (4), 293-299
Robinson.etal:2000 Robinson, D. A.; Williams, R. B. G. (2000): Experimental weathering of sandstone by combinations of salts. In: Earth Surface Processes and Landforms, 25 (12), 1309-1315
Robinson:1982 Robinson, Gilbert C. (1982): Characterization of brick and their resistance to deterioration mechanisms. In: Baer, N.S. (Hrsg.): Conservation of Historic Stone Buildings and Monuments. National Academy Press, National academy of sciences, 145-162.
Robinson:2000 Robinson, David A. (Hrsg.) (2000): Special Issue: Weathering Processes, Products and Environments
Robson:1927 Robson H. L. (1927): The System MgSO4-H2O from 68 to 240°. In: J. Amer. Chem. Soc., 49 (11), 2772-2783
Rode:1941 Rode, T. V. (1941): Vapor pressure and solubility of ternary aqueous systems formed by sodium and magnesium chlorides and sulfates at 25 °C. In: Ann. Sectuer Anal. Phys. Chim., Inst. Chim. Gen.(U.R.S.S.), 14 (), 395-409
Rodrigues.etal:2022 Rodrigues, A.; Sena da Fonseca, B.; Pinto, A.P.F.; Piçarra, S.; Montemor, M. (2022): TEOS Nanocomposites for the Consolidation of Carbonate Stone: The Effect of Nano-HAp and Nano-SiO2 Modifiers . In: Materials, 15 (3), Webadresse
Rodriguez-Navarro.etal:1996 Rodriguez-Navarro, Carlos; Doehne, Eric; Ginell, W.; Sebastian, E. (1996): Salt growth in capillary and porous media. In: Espinosa, V; Zezza, U; Pardo, E. M. Sebastian (Hrsg.): 3rd International Congress of Restoration of Building and Architectural Heritage, Granada, Spain,, Arco Impresores, Santa Fe Granada, 509-514.
Rodriguez-Navarro.etal:1996a Rodriguez-Navarro, Carlos; Sebastian, Pardo E.; Ginell, W. S. (1996): ESEM analysis of the swelling process in sepiolite-bearing Egyptian limestone sculptures. In: Advances in Clay Minerals, (), 301-303
Rodriguez-Navarro.etal:1997 Rodriguez-Navarro, Carlos; Sebastian, Eduardo; Rodriquez-Gallego, Manuel (1997): An urban model for dolomite precipitation: authigenic dolomite on weathered building stones. In: Sedimentary Geology, 109 (1), 1-11
Rodriguez-Navarro.etal:1997a Rodriguez-Navarro, C.; Hansen, E.; Sebastian, E.; Ginell, W. (1997): The role of clays in the decay of ancient Egyptian limestone sculptures. In: Journal of the Ameriacan Institute for Conservation, 36 (2), 151-163
Rodriguez-Navarro.etal:1998 Rodriguez-Navarro, Carlos; Hansen, Eric; Ginell, William S. (1998): Calcium hydroxide crystal evolution upon aging of lime putty. In: Journal of the American Ceramic Society, 81 (11), 3032-3034
Rodriguez-Navarro.etal:1998b Rodriguez-Navarro, Carlos; Sebastian, Eduardo; Doehne, Eric; Ginell, William S. (1998): The role of sepiolite-palygorskite in the decay of ancient Egyptian limestone sculptures. In: Clays and Clay Minerals, 46 (4), 414-422
Rodriguez-Navarro.etal:1999a Rodriguez-Navarro, Carlos; Doehne, Eric (1999): Time-lapse video and ESEM: Integrated tools for understanding processes in situ. In: American Laboratory, (10), 28-35
Rodriguez-Navarro.etal:1999b Rodriguez-Navarro, Carlos; Doehne, Eric (1999): Salt weathering: influence of evaporation rate, supersaturation and crystallization pattern. In: Earth Surface Processes and Landforms, 24 (3), 191-209, Webadresse, 10.1002/(SICI)1096-9837(199903)24:3<191::AID-ESP942>3.0.CO;2-G
Rodriguez-Navarro.etal:2000 Rodriguez-Navarro, C.; Doehne, E.; Sebastian, E. (2000): Influencing crystallization damage in porous materials through the use of surfactants: Experimental results using sodium dodecyl sulphate and cetyldimethylbenzylammonium chloride. In: Langmuir, 16 (3), 947-954, Webadresse, https://doi.org/10.1021/la990580h
Rodriguez-Navarro.etal:2000b Rodriguez-Navarro, Carlos; Doehne, Eric (2000): Origins of honeycomb weathering: The role of salts and wind. In: Bulletin of the Geological Society of America, 111 (8), 1250-1255, Webadresse, 10.1130/0016-7606(1999)1113E2.3.CO;2
Rodriguez-Navarro.etal:2000c Rodriguez-Navarro, C.; Rodriguez-Gallego, M.; Ben Chekroun, K.; Gonzalez-Muñoz, Mª T. (2000): Carbonate Production by Myxococcus Xanthus: A Possible Application to Protect/Consolidate Calcareous Stone. In: Zezza, G. Calvi; U. (Hrsg.): Procc. of the International Congress "Quarry-Laboratory-Monument", Pavia 2000,La goliardica Pavese, Pavia 493-498.
Rodriguez-Navarro.etal:2000d Rodriguez-Navarro, Carlos; Doehne, Eric (2000): How does sodium sulphate crystallize?. In: Cement and Concrete Research, 30 (10), 1527-1534, Webadresse
Rodriguez-Navarro.etal:2002 Rodriguez-Navarro, Carlos; Linares-Fernandez, Lucia; Doehne, Eric; Sebastian, Eduardo (2002): Effects of ferrocyanide ions on NaCl crystallization in porous stone. In: Journal of Crystal Growth, 243 (3), 503-516, Webadresse
Rodriguez-Navarro.etal:2005 Rodriguez-Navarro, C.; Ruiz-Agudo, E.; Ortega-Huertas, M.; Hansen, E. (2005): Nanostructure and Irreversible Colloidal Behavior of Ca(OH) 2 : Implications in Cultural Heritage Conservation. In: Langmuir, 21 (24), 10948--10957, 10.1021/la051338f
Rodriguez-Navarro:1998a Rodriguez-Navarro, Carlos (1998): Evidence of honeycomb weathering on Mars. In: Geophysical Research Letters, 25 (17), 3249-3252
Roehr:1981 Röhr, Hans Ulrich (1981): Solution rates of salt minerals in the flushing of salt cavities. In: Kali Steinsalz, 8 (4), 103-11
Roekens.etal:1988 Rökens, E.; Leysen, L.; Stulens, E.; Philippaerts, J.; Van Grieken, R.; De Geyter, G. (1988): Weathering of Maastricht limestone used in the construction of historical buildings in Limburg, Belgium. In: Ciabach, J. (Hrsg.): ,Nicholas Copernicus University. Press Department, Torun 45-56.
Roekens.etal:1989 Rökens, E.; Van Grieken, R. (1989): Rates of air pollution induced surface recession and material loss for a cathedral in Belgium. In: Atmospheric Environment, 23 (1), 271-277
Roekens.etal:1989a Rökens, E.; Bleyen, C.; Vangrieken, R. (1989): Sulphite and sulphate concentrations in weathering products of sandy limestone and in deposition samples. In: Environmental pollution (1987), 57 (4), 289-298
Roerig-Dalgaard:2008 Rörig-Dalgaard (2008): Preservation of murals with electrokinetic – with focus on desalination of single bricks. Dissertation, file:Roerig-Dargaard Thesis.pdf
Roerig-Dalgaard:2014 Rörig-Dalgaard, I. (2014): Determination of the deliquescence point in salt mixtures and in in-situ multicomponent salts with DVS equipment. 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 223-236, 10.5165/hawk-hhg/266.
Roesch.etal:1991 Rösch, Heinrich; Schwarz, Hans-Jürgen (1991): Salz - der Intimfeind von Wandmalereien. In: Berichte zur Denkmalpflege in Niedersachsen, 11 (2), 68-71
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