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== Welcome to SaltWiki ==
<gallery mode="packed-hover">
Image:SA101 1.jpeg| ''Gypsum crystals''
Image:Salzwedel 17012007 (145).jpg| ''salt efflorescence on a brick''
Image:Koel 200607-03 (5).JPG| ''thin section''
Image:Kop-Alveolar 1.JPG| ''Alveolar Weathering''
Image:Oxalat Kristalle Musterplatte.jpg| ''Oxalate crystals''
Image:NaCl 27.4.2006-10x (2).JPG| '' NaCl crystals on microscope slides''
</gallery>


SaltWiki is intended to share current specialist information on salts, damages caused by salts and dealing with salt damage. You are welcome to contribute to this joint venture and to collaborate in compiling SaltWiki as an [[special:contact|author]]. Information about the project you find [[About the project|here]].
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SaltWiki is an [https://www.saltwiki.net/index.php/Editorial_Board editorially] maintained specialist website with German and English information on the following topics:
* Salts
* Damage caused by salts
* Dealing with salt damage
 
Among other things, this information will help you to understand expert opinions or to plan measures.
 
Become an [https://www.saltwiki.net/index.php/Author_Registration author] and share your knowledge or support this worldwide transfer of knowledge by becoming a member of the [http://81.169.173.189/sik/pages/salzwiki-projekt.php Salze im Kulturgut (SIK)] association, which is a [https://www.saltwiki.net/index.php/About_the_project research association].
 
A support of the [https://www.saltwiki.net/index.php/About_the_project Deutschen Forschungsgemeinschaft (DFG)] enabled the realization at the Hornemann Institute of the [https://hornemann-institut.hawk.de/de HAWK] in Hildesheim until 2012.


After completing the DFG project, the research group has founded [http://81.169.173.189/sik/pages/salzwiki-projekt.php the association SIK] who has been committed to update the contents. The Hornemann Institute of the HAWK is responsible for the technical and graphical maintenance of the portal.
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<h3 style="border-bottom: 1px solid rgb(136, 152, 191); margin: 1px; padding: 2px; background: rgb(216, 232, 255) none repeat scroll 0% 0%; -moz-background-clip: border; -moz-background-origin: padding; -moz-background-inline-policy: continuous; font-weight: bold; text-align: center; font-size: 120%;">[[Literature and Programs|Literature and Software]]</h3>  
*[[Fulltext Literature]]
*[[:category:fulltext|Literature as PDF File]]
*[[Poster]]
*[[Poster]]
*[[Software]]
*[[Software]]
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<br/>
<br/>


== News ==


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[[File:2023-01-13 Salzloesungen MeldungEggert Foto Heiner-Grie VesteCoburg-1205x800.jpg|thumb|300px|left|Abb.1: Here, saturated salt solutions are still used for climate control: Exhibition of sensitive glassware at the Veste Coburg, bottom compartment for salt solutions opened for the photo. © Heiner Grieb, Veste]]
 
===Salts in display cases===
 
'''Brief insight:'''
The display cases in museums usually have a defined relative humidity in order to create optimal climatic conditions for exhibited objects. This can be influenced by various methods. These include electrical air conditioning devices, humidity buffers but also saturated salt solutions.
 
'''Literature:''' <br>
Eggert, G.: Saturated salt solutions in showcases: humidity control and pollutant absorption. Heritage Science, 10 (53) ('''2022'''). https://doi.org/10.1186/s40494-022-00689-3 <br>
Waller C.: Materialien und Geräte zur Klimatisierung von Vitrinen und Depotschränken: 2.4 Salzlösungen,('''2022''') http://www.cwaller.de/deutsch.htm?teil2.htm~information
 
'''Looking for authors :'''
Do you have any experience in the field of [[salts in display cases]]? If so, you can write a text or add new information and send it to '''info.salzwiki@gmail.com.''' We will then complete the article so it is available for all of our users!
 
|}
 
 
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<h3 style="border-bottom: 1px solid rgb(136, 152, 191); margin: 1px; padding: 2px; background: rgb(216, 232, 255) none repeat scroll 0% 0%; -moz-background-clip: border; -moz-background-origin: padding; -moz-background-inline-policy: continuous; font-weight: bold; text-align: center; font-size: 120%;">Events</h3>


====SWBSS2021 in Delft====
===SWBSS ASIA 2023  on September 20-22, 2023 in Nara, Japan===


SWBSS 2021 is the 5th edition of the conference series “Salt Weathering of Buildings and Stone Sculptures”, started in 2008. Previous editions were held in Copenhagen (2008), Limassol (2011), Brussel (2014) and Potsdam (2017).


SWBSS2021 will be held at the Delft University of Technology (Delft, The Netherlands) on 22 - 24 September 2021.
SWBSS is the conference series “Salt Weathering of Buildings and Stone Sculptures”, started in 2008. The conference aims at bringing together conservators, restorers, engineers, architects, academics, students and experienced researchers and to contribute thereby to the promotion of research and development within the field of salt weathering of porous materials.  


The conference aims to bring together conservators, restorers, engineers, architects, academics, students and experienced researchers and to contribute thereby to the promotion of research and development within the field of salt weathering of porous materials.
Its previous series were held in Copenhagen (2008), Limassol (2011), Brussel (2014), Potsdam (2017), and Delft (2021). An idea of SWBSS ASIA as the conference series to be held in Asian countries was proposed at Potsdam in 2017 and its first meeting, SWBSS ASIA 2023, was announced at Delft in 2021. SWBSS ASIA 2023 was held at Nara, Japan, on September 20-22, 2023.


You will find '''the conference proceedings''' [[https://books.bk.tudelft.nl/press/catalog/book/791  here]]
The '''proceedings of the conference''' you will find [[https://repository.hawk-hhg.de/index.php/File:SWBSS_ASIA_2023_Proceedings.pdf#Summary here]].
<!--
===CRYSPOM VIII / 13-15 June 2023 in Ghent (Belgium)===
{{Klappbox|The Biannual International workshop Crystallization in Porous Media CRYSPOM focuses on fundamental research of crystallization in porous materials. It unites researchers from geoengineering, geology, physics, chemistry, mechanics and conservation interested in crystal nucleation, growth and transport in porous media and its related consequences.|2=  The idea is to bring together leading researchers and Ph.D. students to provide for a constructive and open dialogue. Also, it seeks to incite collaborations between theorists, modelists and experimentalists on an international level.


====CRYSPOM VIII / 13-57 June 2023 in Ghent (Belgium)====
CRYSPOM results from a long-standing tradition. The workshop was founded by Prof. Noushine Shahidzadeh in 2008 in Paris, and subsequently took place in Brienz (Switzerland, 2010), Troia (Portugal, 2012), Amsterdam (The Netherlands, 2014), Toulouse (France, 2016), Hamburg (Germany, 2018) and Pau (France 2021).
}}


The Biannual International workshop Crystallization in Porous Media CRYSPOM focuses on fundamental research of crystallization in porous materials. It unites researchers from geoengineering, geology, physics, chemistry, mechanics and conservation interested in crystal nucleation, growth and transport in porous media and its related consequences.
===Workshop "Damaging salts in objects of cultural and architectural heritage"===


The idea is to bring together leading researchers and Ph.D. students to provide for a constructive and open dialogue. Also, it seeks to incite collaborations between theorists, modelists and experimentalists on an international level.
'''September 11-15, 2023, Kartause Mauerbach near Vienna '''
 
{{Klappbox|INITIAL NOTICE WITH INVITATION TO REGISTRATION  |2= Soluble salts are a serious threat to the existence of numerous objects of architectural heritage and cultural assets. The basis for the professional planning of measures is a fundamental understanding of the responsible damage factors and processes, which relates the latest scientific findings to the problems in practice. While specialist conferences and publications largely illuminate partial aspects of the topic, this workshop aims to provide first-hand basic knowledge of the behavior of soluble salts and the practical handling of object-specific analysis data in the concentrated working atmosphere of a three-day event. Although this usually does not mean that the problem has been solved, it is an essential prerequisite for planning suitable measures. The event consists of the 3-day workshop (module 1), which is followed by an all-day lecture event for a larger group of participants (module 2) and a day of excursions in Vienna (module 3). These modules can be booked together or individually.  
CRYSPOM results from a long-standing tradition. The workshop was founded by Prof. Noushine Shahidzadeh in 2008 in Paris, and subsequently took place in Brienz (Switzerland, 2010), Troia (Portugal, 2012), Amsterdam (The Netherlands, 2014), Toulouse (France, 2016), Hamburg (Germany, 2018) and Pau (France 2021).  


You can find more information [[https://repository.hawk-hhg.de/images/c/ca/Ank%C3%BCndigung_Salzworkshop_2023-Mauerbach.pdf here]].
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<h3 style="border-bottom: 1px solid rgb(136, 152, 191); margin: 1px; padding: 2px; background: rgb(216, 232, 255) none repeat scroll 0% 0%; -moz-background-clip: border; -moz-background-origin: padding; -moz-background-inline-policy: continuous; font-weight: bold; text-align: center; font-size: 120%;">Literature</h3>


-->


Godts, S., Steiger, M., Orr, S.A. et al. Charge balance calculations for mixed salt systems applied to a large dataset from the built environment. Sci Data 9, 324 (2022). https://doi.org/10.1038/s41597-022-01445-9
|
| width="40%" valign="top" style="border: 1px solid rgb(136, 152, 191);"| <h3 style="border-bottom: 1px solid rgb(136, 152, 191); margin: 1px; padding: 2px; background: none repeat scroll 0% 0% rgb(216, 232, 255); -moz-background-inline-policy: continuous; font-weight: bold; text-align: center; font-size: 120%;">Literature</h3>


Abstract:Understanding salt mixtures in the built environment is crucial to evaluate damage phenomena. This contribution presents charge balance calculations applied to a dataset of 11412 samples taken from 338 sites, building materials showing signs of salt deterioration. Each sample includes ion concentrations of Na+, K+, Mg2+, Ca2+, Cl−, NO3−, and SO42− adjusted to reach charge balance for data evaluation. The calculation procedure follows two distinct pathways: i) an equal adjustment of all ions, ii) adjustments to the cations in sequence related to the solubility of the theoretical solids. The procedure applied to the dataset illustrates the quantification of salt mixture compositions and highlights the extent of adjustments applied in relation to the sample mass to aid interpretation. The data analysis allows the identification of theoretical carbonates that could influence the mixture behavior. Applying the charge balance calculations to the dataset validated common ions found in the built environment and the identification of three typical mixture compositions. Additionally, the data can be used as direct input for thermodynamic modeling.
'''Dong-Mei Chen; Kun Yuan; Xian-Ming Zhang (2024)''': Morphology transformation of Na2SO4 from prism into dendrite enhanced desalination efficiency in sandstone by biodegradable polycarboxylate modifiers. In: Construction and Building Materials, 411 (), 134513, Webadresse, https://doi.org/10.1016/j.conbuildmat.2023.134513


'''Amelie Stahlbuhk; Michael Steiger (2024)''': Damage potential and supersaturation of nitrates relevant to salt damage of porous building materials. In: Construction and Building Materials, 419 (), 135413, Webadresse, https://doi.org/10.1016/j.conbuildmat.2024.135413


Eggert, G., Fischer, A. (2021): The formation of formates: a review of metal formates on heritage objects. Herit Sci 9, 26 (2021). https://doi.org/10.1186/s40494-021-00499-z
'''Encarnación Ruiz-Agudo; Aurelia Ibañez-Velasco; Cristina Ruiz-Agudo; Sarah Bonilla-Correa; Kerstin Elert; Carlos Rodríguez-Navarro (2024)''': Damage of porous building stone by sodium carbonate crystallization and the effect of crystallization modifiers. In: Construction and Building Materials, 411 (), 134591, Webadresse, https://doi.org/10.1016/j.conbuildmat.2023.134591


Yunxia Shen, Kirsten Linnow and Michael Steiger (2020): Crystallization Behavior and Damage Potential of Na2SO4–NaCl Mixtures in Porous Building Materials: Cryst. Growth Des. 2020, 20, 9, 5974–5985, https://doi.org/10.1021/acs.cgd.0c00671
'''Masaru Abuku and Nobumitsu Takatori (Eds) (2023):''' Proceedings of SWBSS ASIA 2023. First International Conference in Asia on Salt Weathering of Buildings and Stone Sculptures, Nara National Research Institute for Cultural Properties Nara, Japan September 20-22, 2023, [https://repository.hawk-hhg.de/index.php/File:SWBSS_ASIA_2023_Proceedings.pdf#Summary link to the proceedings]


Leyla-Cann Sögütoglu, Michael Steiger, Jelle Houben, Daan Biemans, Hartmut R. Fischer, Pim Donkers, Henk Huinink, and Olaf C. G. Adan(2019): Understanding the Hydration Process of Salts: The Impact of a Nucleation Barrier, Cryst. Growth Des., Article ASAP, DOI: 10.1021/acs.cgd.8b01908, Publication Date (Web): February 14, 2019, https://pubs.acs.org/doi/10.1021/acs.cgd.8b01908
'''Godts, S., Orr, S.A., Steiger, M. et al.''' Salt mixtures in stone weathering. Sci Rep 13, 13306 (2023). https://doi.org/10.1038/s41598-023-40590-y


Vazquez, P.; Thomachot-Schneider, C.; Mouhoubi, K.; Bodnar, J-L.; Avdelidis, N. P.; Charles, D.; Benavente, D. Sodium sulfate crystallisation monitoring using IR Thermography (2018): Infrared Physics & Technology
'''Godts, S.; Steiger, M.; Orr, S.A.; Stahlbuhk, A.; Desarnaud, J.; De Clercq, H.; Cnudde, V.; De Kock''', T. Modeling Salt Behavior with ECOS/RUNSALT: Terminology, Methodology, Limitations, and Solutions. Heritage ( 2022) 5, 3648-3663. https://doi.org/10.3390/heritage5040190
Volume 89, March 2018, Pages 231-241,  https://doi.org/10.1016/j.infrared.2018.01.011, http://dspace.lib.cranfield.ac.uk/handle/1826/12944


Sousa, Luis; Siegesmund, Siegfriedand Wedekind, Wanja (2018): Salt weathering in granitoids: an overview on the controlling factors. Environmental Earth Sciences, 77 (13), 502, https://doi.org/10.1007/s12665-018-7669-y
'''Lubelli''', B., Rörig-Daalgard, I., Aguilar, A.M. et al. Recommendation of RILEM TC 271-ASC: New accelerated test procedure for the assessment of resistance of natural stone and fired-clay brick units against salt crystallization. Mater Struct 56, 101 ('''2023'''). https://doi.org/10.1617/s11527-023-02158-0


Lubelli, Barbara and Cnudde, Veerle and Diaz-Goncalves, Teresa and Franzoni, Elisa and van Hees, Rob P. J. and Ioannou, Ioannis and Menendez, Beatriz and Nunes, Cristiana and Siedel, Heiner and Stefanidou, Maria and Verges-Belmin, Veronique and Viles, Heather (2018): Towards a more effective and reliable salt crystallization test for porous building materials: state of the art. Materials and Structures, 51 (2), 55, https://doi.org/10.1617/s11527-018-1180-5
'''Eggert''', G.: Saturated salt solutions in showcases: humidity control and pollutant absorption. Heritage Science, 10 (53) ('''2022'''). https://doi.org/10.1186/s40494-022-00689-3


[[Cit:AbuAlhassan:2018|Yazan Abu Alhassan]]: The use of sodium ferrocyanide for the removal of salt from stone, exemplified for sandstones from Petra - Jordan,Dissertation, RWTH Aachen University, 2018
'''Germinario''', L.; Oguchi, C.T.: Gypsum, mirabilite, and thenardite efflorescences of tuff stone in the underground environment. Environ Earth Sci 81, 242 '''(2022'''). https://doi.org/10.1007/s12665-022-10344-6: Link to PDF: https://rdcu.be/cZdVP


[[SWBSS 2017|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, edited by Steffen Laue
'''Godts''', S.; Steiger, M.; Orr, S.A. et al.: Charge balance calculations for mixed salt systems applied to a large dataset from the built environment. Sci Data 9, 324 ('''2022'''). https://doi.org/10.1038/s41597-022-01445-9. Link to PDF: https://rdcu.be/cZdWY


[[:file:2017 Flatt laboratorytests.pdf|J. Flatt,  Nevin  Aly  Mohameda,b,  Francesco  Carusoc,  Hannelore  Derluynd,  Julie  Desarnaude,  Barbara Lubellif, Rosa Maria Espinosa‐Marzalg, Leo Pelh, Carlos Rodriguez‐Navarroi, George W. Schererj, Noushine Shahidzadehk, Michael Steiger]]: Predicting salt damage in practice: a theoretical insight into  laboratory tests. In: RILEM Technical Letters (2017) 2: 108‐118,DOI: https://doi.org/10.21809/rilemtechlett.2017.41
'''Eggert''', G., Fischer, A. (2021): The formation of formates: a review of metal formates on heritage objects. Herit Sci 9, 26 (2021). https://doi.org/10.1186/s40494-021-00499-z


[[:file:SR_17_PerspektiveRetrospektive_Wand_Lenz_S123-133.pdf| Roland Lenz]]:Systemoptimierte Salzminderungskompressen (Material-Wirkung), in: Retrospektive und Perspektive, Methoden und Techniken in der Wandmalereirestaurierung, Werkstattgespräch des Bayerischen Landesamtes für Denkmalpflege im Literaturhaus München, 9. und 10. Mai 2106, Volk Verlag München 2017, S. 123-133.
'''Shen''', Y. Linnow, K. and Steiger, M.: Crystallization Behavior and Damage Potential of Na2SO4–NaCl Mixtures in Porous Building Materials: Cryst. Growth Des. 2020, 20, 9, 5974–5985, https://doi.org/10.1021/acs.cgd.0c00671


'''Granneman''', S.J.C.; Lubelli, B.; van Hees, R.P.J.: Effect of mixed in crystallization modifiers on the resistance of lime mortar against NaCl and Na2SO4 crystallization. Construction and Building Materials , vol.194, S.62-70, 2019, https://doi.org/10.1016/j.conbuildmat.2018.11.006


Steffen Laue (ed.): 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, http://dx.doi.org/10.5165/HAWK-HHG/315
'''Andreotti''', S.; Franzoni, E.; Ruiz-Agudo, E.; Scherer, G.W.; Fabbri, P.; Sassoni, E.; Rodriguez-Navarro, C.: New polymer-based treatments for the prevention of damage by salt crystallization in stone. Materials , 52 (17), Webadresse, https://doi.org/10.1617/s11527-018-1309-6


'''Sögütoglu''', L.; Steiger, M.; Houben, J.; Biemans, D.; Fischer, H.R.; Donkers, P.; Huinink, H.; and Adan, O.: Understanding the Hydration Process of Salts: The Impact of a Nucleation Barrier, Cryst. Growth Des., Article ASAP, DOI: 10.1021/acs.cgd.8b01908, Publication Date (Web): February 14, 2019, https://pubs.acs.org/doi/10.1021/acs.cgd.8b01908


|
'''Vazquez''', P.; Thomachot-Schneider, C.; Mouhoubi, K.; Bodnar, J-L.; Avdelidis, N. P.; Charles, D.; Benavente, D. Sodium sulfate crystallisation monitoring using IR Thermography (2018): Infrared Physics & Technology
| width="33%" valign="top" style="border: 1px solid rgb(136, 152, 191);" |
Volume 89, March 2018, Pages 231-241,  https://doi.org/10.1016/j.infrared.2018.01.011, http://dspace.lib.cranfield.ac.uk/handle/1826/12944
<h3 style="border-bottom: 1px solid rgb(136, 152, 191); margin: 1px; padding: 2px; background: rgb(216, 232, 255) none repeat scroll 0% 0%; -moz-background-clip: border; -moz-background-origin: padding; -moz-background-inline-policy: continuous; font-weight: bold; text-align: center; font-size: 120%;">Other</h3>


If you are interested in writing an article or making an English version of an article already published in the German SalzWiki please [[special:contact|contact]] us.
Especially native speakers are invited to join the SaltWiki-Team.


|
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'''Looking for authors:'''
<br/>If you are interested in writing an article or making an English version of an article already published in the German SalzWiki please [[https://www.saltwiki.net/index.php/Special:Contact contact]] us.
|}
|}


[[category: Overview]]
[[category: Overview]]

Latest revision as of 17:42, 8 April 2024


  • Gypsum crystals

    Gypsum crystals

  • salt efflorescence on a brick

    salt efflorescence on a brick

  • thin section

    thin section

  • Alveolar Weathering

    Alveolar Weathering

  • Oxalate crystals

    Oxalate crystals

  • NaCl crystals on microscope slides

    NaCl crystals on microscope slides

Welcome to SaltWiki

SaltWiki is an editorially maintained specialist website with German and English information on the following topics:

  • Salts
  • Damage caused by salts
  • Dealing with salt damage

Among other things, this information will help you to understand expert opinions or to plan measures.

Become an author and share your knowledge or support this worldwide transfer of knowledge by becoming a member of the Salze im Kulturgut (SIK) association, which is a research association.

A support of the Deutschen Forschungsgemeinschaft (DFG) enabled the realization at the Hornemann Institute of the HAWK in Hildesheim until 2012.

Fundamentals

Conservation Measures

Methods

Salt Data

Deterioration Patterns

Literature and Software



Theme of the quarter

Abb.1: Here, saturated salt solutions are still used for climate control: Exhibition of sensitive glassware at the Veste Coburg, bottom compartment for salt solutions opened for the photo. © Heiner Grieb, Veste

Salts in display cases[edit]

Brief insight: The display cases in museums usually have a defined relative humidity in order to create optimal climatic conditions for exhibited objects. This can be influenced by various methods. These include electrical air conditioning devices, humidity buffers but also saturated salt solutions.

Literature:
Eggert, G.: Saturated salt solutions in showcases: humidity control and pollutant absorption. Heritage Science, 10 (53) (2022). https://doi.org/10.1186/s40494-022-00689-3
Waller C.: Materialien und Geräte zur Klimatisierung von Vitrinen und Depotschränken: 2.4 Salzlösungen,(2022) http://www.cwaller.de/deutsch.htm?teil2.htm~information

Looking for authors : Do you have any experience in the field of salts in display cases? If so, you can write a text or add new information and send it to info.salzwiki@gmail.com. We will then complete the article so it is available for all of our users!


Events

SWBSS ASIA 2023 on September 20-22, 2023 in Nara, Japan[edit]

SWBSS is the conference series “Salt Weathering of Buildings and Stone Sculptures”, started in 2008. The conference aims at bringing together conservators, restorers, engineers, architects, academics, students and experienced researchers and to contribute thereby to the promotion of research and development within the field of salt weathering of porous materials.

Its previous series were held in Copenhagen (2008), Limassol (2011), Brussel (2014), Potsdam (2017), and Delft (2021). An idea of SWBSS ASIA as the conference series to be held in Asian countries was proposed at Potsdam in 2017 and its first meeting, SWBSS ASIA 2023, was announced at Delft in 2021. SWBSS ASIA 2023 was held at Nara, Japan, on September 20-22, 2023.

The proceedings of the conference you will find [here].

Literature

Dong-Mei Chen; Kun Yuan; Xian-Ming Zhang (2024): Morphology transformation of Na2SO4 from prism into dendrite enhanced desalination efficiency in sandstone by biodegradable polycarboxylate modifiers. In: Construction and Building Materials, 411 (), 134513, Webadresse, https://doi.org/10.1016/j.conbuildmat.2023.134513

Amelie Stahlbuhk; Michael Steiger (2024): Damage potential and supersaturation of nitrates relevant to salt damage of porous building materials. In: Construction and Building Materials, 419 (), 135413, Webadresse, https://doi.org/10.1016/j.conbuildmat.2024.135413

Encarnación Ruiz-Agudo; Aurelia Ibañez-Velasco; Cristina Ruiz-Agudo; Sarah Bonilla-Correa; Kerstin Elert; Carlos Rodríguez-Navarro (2024): Damage of porous building stone by sodium carbonate crystallization and the effect of crystallization modifiers. In: Construction and Building Materials, 411 (), 134591, Webadresse, https://doi.org/10.1016/j.conbuildmat.2023.134591

Masaru Abuku and Nobumitsu Takatori (Eds) (2023): Proceedings of SWBSS ASIA 2023. First International Conference in Asia on Salt Weathering of Buildings and Stone Sculptures, Nara National Research Institute for Cultural Properties Nara, Japan September 20-22, 2023, link to the proceedings

Godts, S., Orr, S.A., Steiger, M. et al. Salt mixtures in stone weathering. Sci Rep 13, 13306 (2023). https://doi.org/10.1038/s41598-023-40590-y

Godts, S.; Steiger, M.; Orr, S.A.; Stahlbuhk, A.; Desarnaud, J.; De Clercq, H.; Cnudde, V.; De Kock, T. Modeling Salt Behavior with ECOS/RUNSALT: Terminology, Methodology, Limitations, and Solutions. Heritage ( 2022) 5, 3648-3663. https://doi.org/10.3390/heritage5040190

Lubelli, B., Rörig-Daalgard, I., Aguilar, A.M. et al. Recommendation of RILEM TC 271-ASC: New accelerated test procedure for the assessment of resistance of natural stone and fired-clay brick units against salt crystallization. Mater Struct 56, 101 (2023). https://doi.org/10.1617/s11527-023-02158-0

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Shen, Y. Linnow, K. and Steiger, M.: Crystallization Behavior and Damage Potential of Na2SO4–NaCl Mixtures in Porous Building Materials: Cryst. Growth Des. 2020, 20, 9, 5974–5985, https://doi.org/10.1021/acs.cgd.0c00671

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Andreotti, S.; Franzoni, E.; Ruiz-Agudo, E.; Scherer, G.W.; Fabbri, P.; Sassoni, E.; Rodriguez-Navarro, C.: New polymer-based treatments for the prevention of damage by salt crystallization in stone. Materials , 52 (17), Webadresse, https://doi.org/10.1617/s11527-018-1309-6

Sögütoglu, L.; Steiger, M.; Houben, J.; Biemans, D.; Fischer, H.R.; Donkers, P.; Huinink, H.; and Adan, O.: Understanding the Hydration Process of Salts: The Impact of a Nucleation Barrier, Cryst. Growth Des., Article ASAP, DOI: 10.1021/acs.cgd.8b01908, Publication Date (Web): February 14, 2019, https://pubs.acs.org/doi/10.1021/acs.cgd.8b01908

Vazquez, P.; Thomachot-Schneider, C.; Mouhoubi, K.; Bodnar, J-L.; Avdelidis, N. P.; Charles, D.; Benavente, D. Sodium sulfate crystallisation monitoring using IR Thermography (2018): Infrared Physics & Technology Volume 89, March 2018, Pages 231-241, https://doi.org/10.1016/j.infrared.2018.01.011, http://dspace.lib.cranfield.ac.uk/handle/1826/12944


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crystallization of a dissolved salt

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