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ASTM:1997 ASTM (1997): ASTM C88-90, Standard test method for soundness of aggregate by use of sodium sulfate or magnesium sulfate, 37-42.
Aardt.etal:1975 van Aardt, J. H. P.; Visser S. (1975): Thaumasite Formation: a Cause of Deterioration of Portland Cement and Related Substances in the Presence of Sulphates. In: Cement and Concrete Research, 5 (3), 225-232, Webadresse, https://doi.org/10.1016/0008-8846(75)90004-6
Abriel.etal:1990 Abriel, W.; Reisdorf, K.; Pannetier, J. (1990): Dehydration reactions of gypsum - a neutron and X-ray-diffraction study. In: Journal of solid state chemistry, 85 (1), 23-30
AbuAlhassan:2018 Abu Alhassan, Yazan (2018): The use of sodium ferrocyanide for the removal of salt from stone, exemplified for sandstones from Petra - Jordan. Dissertation, RWTH Aachen University, Webadresse, https://doi.org/10.18154/RWTH-2018-226422
Abuku.etal:2014 Abuku, M.; Ogura, D.; Hokoi, S.; Iba, C.; Wakiya, S.; Uno, T. (2014): Measurement of sorption isotherm of porous materials influenced by salt. 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 237-246, https://doi.org/10.5165/hawk-hhg/242.
Abuku.etal:2017 Abuku, Masaru; Ogura, D.; Hokoi, S. (2017): A preliminary study on dynamic measurement of salt crystallization and deliquescence on a porous material surface using optical microscope. 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 42-48, https://doi.org/10.5165/hawk-hhg/saltwiki/2910.5165/hawk-hhg/319.
Abuku.etal:2021 Abuku, M.; Ishii K. (2021): PMSolver: development of a generic fem code for heat, moisture, and salt transfer and deformation in porous materials . 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 187-189, Webadresse.
Acheson:1965 Acheson, Donald (1965): Vapor pressures of saturated aqueous salt solutions. In: Wexler, A. (Hrsg.):, Reinhold Pub. Corp., 521-530.
Adam:1992 Adam, Simone (1992): Petrographische und geochemische Untersuchungen zum Verwitterungsverhalten von Molassesandsteinen am Bauwerk - Fallbeispiele: Konstanzer Münster, Alte Kanzlei Überlingen und St. Nikolaus-Kirche Friedrichshafen. Dissertation, Ruprecht-Karls-Univ.
Adamson.etal:2011 Adamson, C.; Smith, B.J.; McCabe, S.; Warke, P.A. (2011): The inventorying of building stone performance-in-use to assess susceptibility to decay. In: Ionannou, Ioannis; Theodoridou, Magdalini (Hrsg.): Proceedings of the Conference "Salt Weathering on Buildings and Stone Sculptures", Limassol, Cyprus, 19.-22. Oct. 2011, 145-152.
Ahlborn:2003 Ahlborn (2003): Gesamtkatalog, Ahlborn Mess- und Regelungstechnik GmbH, Holzkirchen
Ahmad.etal:2011 Ahmad, S.; Viles, H. (2011): Algal greening and salt weathering of sandstone facades. In: Ionannou, Ioannis; Theodoridou, Magdalini (Hrsg.): Proceedings of the Conference "Salt Weathering on Buildings and Stone Sculptures", Limassol, Cyprus, 19.-22. Oct. 2011, 417.
Aires-Barros:1996 Aires-Barros, Luis; Mauricio, A. (1996): Chronology, probability estimations and salt efflorescence occurences forecasts on monumental building stones surfaces. In: Riederer, Josef (Hrsg.): Proceedings of the 8th International Congress on Deterioration and Conservation of Stone: held in Berlin, 30 Sept. - 4 Oct. 1996,Moeller Druck 497-511.
Akiner.etal:1992 Akiner, S.; Cooke, R. U.; French, R. A. (1992): Salt damage to Islamic monuments in Uzbekistan. In: Geographical journal, 158 (3), 257(16)
Al-Amoudi.etal:1995 Al-Amoudi, Omar Saeed Baghabra; Maslehuddin, Mohammed; Saadi, Mahmoud M. (1995): Effect of magnesium sulfate and sodium sulfate on the durability performance of plain and blended cements. In: ACI Materials Journal, 92 (), 15-24
Al-Zahrani:1999 Al-Zahrani, Abdulnaser A. (1999): Chloride Ion Removal from Archaeological Iron and ß-FeOOH. PhD Thesis, University of Wales, Cardiff
Alaimo.etal:1993 Alaimo, R.; Di Franco, L.; Montana, G. (1993): Calcium oxalate growth using values for experimental variables comparable to those detected in urban environment. In: Science and technology for cultural heritage, 2 (), 123-130
Alaimo.etal:1993a Alaimo, R.; Montana, G. (1993): Study of calcium oxalates bearing patinas of altered calcareous artifacts by BSEI technique. In: Neues Jahrbb Miner. Abhand., 165 (2), 143-153
Alcantara:2002 Alcantara, Rebeca (Hrsg.) Alcantara, Rebeca (2002): Standards in Preventive Conservation: Meanings and Applications, ICCROM, Webadresse
Ali.etal:2011 Ali, H. E.; Khattab, S.A.; Beck, K.; Al-Mukhtar, M. (2011): Salt weathering in the Al-Namrud Monuments in Iraq: characterization of historical stone and fresh stone treated with accelerated decay tests. In: Ionannou, Ioannis; Theodoridou, Magdalini (Hrsg.): Proceedings of the Conference "Salt Weathering on Buildings and Stone Sculptures", Limassol, Cyprus, 19.-22. Oct. 2011, 89-96.
Allmann.etal:2003 Allmann, Rudolf; Kraus, Karin (2003): Salze in historischem Mauerwerk. In: Bericht der Deutschen Mineralogischen Gesellschaft. Beiheft zu European Journal of Mineralogy, 15 (1), 5-6
Allmann:1994 Allmann, Rudolf (1994): Röntgenpulverdiffraktometrie, Verlag Sven von Loga
Alonso-Olvera.etal:2021 Alonso-Olvera, A.; Martínez -Piñeiro, E.; Mora -Navarro, G. (2021): Study and evaluation of salt efflorescence in Maya murals of Calakmul north acropolis, Mexiko. 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 355-357, Webadresse.
Alonso.etal:1987 Alonso, F. J.; Ordaz, J.; Valdeon, L.; Esbert, R. M. (1987): Critical review of the salt crystallization test. In: Mater. Constr. (Madrid), 37 (206), 53-60
Alonso.etal:1994 Alonso, F. J.; Esbert, R. M.; Alonso, J.; Ordaz, J. (1994): Saline spray action on a treated dolomitic stone. In: Fassina, V.; Ott, H.; Zezza, F. (Hrsg.):,Soprintendenza ai Beni Artistici e Storici di Venezia 860-70.
Althoey.etal:2021 Althoey, F.; Stutzman, P.; Steiger, M.; Farnam, Y. (2021): Thermo-chemo-mechanical understanding of damage development in porous cementitious materials exposed to sodium chloride under thermal cycling. In: Cement and Concrete Research, 147 (), 106497, Webadresse, https://doi.org/10.1016/j.cemconres.2021.106497
Alves.etal:2021 Alves, C.; Figueiredo, C.A.M.; Sanjurjo-Sánchez, J.; Hernández, A.C. (2021): Salt Weathering of Natural Stone: A Review of Comparative Laboratory Studies . In: Heritage, 4 (3), Webadresse
Alvfors.etal:1988 Alvfors, P.; Svedberg, G. (1988): Modeling of the sulfation of calcined limestone and dolomite - a gas-solid reaction with structural-changes in the presence of inertsolids. In: Chemical Engineering Science, 43 (5), 1183-1193
Aly-Mohamed.etal:2014 Aly, N.; Gomez-Heras, M.; Hamed, A.; Alvarez de Buergo, M.; Soliman, F. (2014): Porosity changes after different temperature regimes for a salt weathering simulation test on Mokkattam limestone. 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 247-257, 10.5165/hawk-hhg/243.
Amathieu.etal:1988 Amathieu, L.; Boistelle, R. (1988): Crystallization kinetics of gypsum from dense suspension of hemihydrate in water. In: Journal of crystal growth, 88 (2), 183-192
Amirthalingam.etal:1977 Amirthalingam V., Karkhanavala M. D., Rao U. R. K. (1977): Topotaxic phase change in Na2SO4. In: Acta Crystallographica Section A, 33 (3), 522-523, https://doi.org/10.1107/S0567739477001296
Amirthalingam:1977 Amirthalingam, V.; Karkhanaavala, M. D.; Rao, U. R. K. (1977): Topotaxic phase change in Na2SO4. In: Acta Cryst., A33 (), 522-523
Amit:1996 Amit, R.; Yaalon, D. H. (1996): The micromorphology of gypsum and halite in Reg soils -- The Negev Desert, Israel. In: Earth Surface Processes and Landforms, 21 (), 127-1143
Amjad:1985 Amjad, Zahid (1985): Calcium sulfate inhibition, European Patent Application EP0171049.
Amjad:1986 Amjad, Zahid (1986): Inhibition of salt precipitation in aqueous systems, Patent number: 4563284.
Amjad:1988 Amjad, Zahid (1988): Kinetics of crystal growth of calcium sulfate dihydrate. Influence of polymer composition, molecular weight, and solution pH. In: Can. J. Chem., 66 (6), 1529-36
Amjad:1996 Amjad, Zahid (Hrsg.) (1996): Mineral Scale Formation and Inhibition, Plenum Pub Corp
Amjad:2000 Amjad, Zahid (Hrsg.) (2000): Advances in Crystal Growth Inhibition Technologies, Plenum Pub Corp
Amoroso.etal:1983 Amoroso, Giovanni G.; Fassina, Vasco (1983): Stone Decay and Conservation: Atmospheric Pollution, Cleaning, Consolidation and Protection, Elsevier Science Publishers, Amsterdam, New York
Andrade.etal:1995 Andrade, C.; Castellote, M.; Cervigon, D.; Alonso, C. (1995): Chloride migration in concrete: theory and modelling. In: Internationale Zeitschrift für Bauinstandsetzen, 1 (6)
Andree:1912 Andrée, K. (1912): Die geologische Bedeutung des Wachstumsdruckes kristallisierender Substanzen. In: Geologische Rundschau, 3 (1), 7-15, 10.1007/BF01802301
Andreotti.etal:2019 Andreotti, S.; Franzoni, E.; Ruiz-Agudo, E.; Scherer, G.W.; Fabbri, P.; Sassoni, E.; Rodriguez-Navarro, C. (2019): New polymer-based treatments for the prevention of damage by salt crystallization in stone. In: Materials , 52 (17), Webadresse
Angeli.etal:2007 Angeli, Matthieu; Bigas, Jean-Philippe; Benavente, David; Menéndez, Beatriz; Hébert, Ronan; David, Christian (2007): Salt crystallization in pores: quantification and estimation of damage. In: Environmental Geology, 52 (2), 205-213, Webadresse, https://doi.org/10.1007/s00254-006-0474-z
Aoki:1972 Aoki, Y. (1972): Growth of KCl Whiskers on KCl crystals including the mother liquid. In: J. Crystal Growth, 15 (), 163-166
Appleman:2002 Appleman, Bernard R. (2002): Advances in Technology and Standards for Mitigating the effects of Soluble Salts. In: Journal of Protective Coatings and Linings, 10 (5), 42-47
Archambault:1995 Archambault, G. (1995): Feuchte Umschläge. Reinigung verschmutzter Natursteinfassaden. In: Granit, 5 (), 33-34
Aref.etal:2002 Aref, M. A. M.; El-Khoriby, E.; Hamdan, M. A. (2002): The role of salt weathering in the origin of the Qattara Depression, Western Desert, Egypt. In: Geomorphology, 45 (3), 181-195
Arendt.etal:1979 Arendt, Claus; Grim, Wolf-Dieter; Kiechle, Wilhelm (1979): Bodenwasser Untersuchungen in Urschalling/ Obb. In: Jahrbuch der bayerischen Denkmalpflege, 33 (), 59-82
Arendt.etal:1985 Arendt, C.; Grimm, W.; Kiechle, W. (Hrsg.) (1985): Bodenwasser-Untersuchungen in Urschalling/OBB. I. Die Bedeutung der Untersuchungen in Urschalling für die Sanierung von Baudankmälern (von Claus Arendt). II. Die Bodenwasserverhältnisse im Bereich der Kirche von Urschalling (von Wolf-Dieter Grimm und Wilhelm Kiechle)
Arendt.etal:1990 Arendt, C.; Wiesen, H. (Hrsg.) (1990): Verfahren zur Untersuchung von Mauerfeuchtigkeit. Ursachenbestimmung, Planungskriterien, Fallbeispiele
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