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<!--The English version of this article is edited by Christa Gerdwilker-->
Authors: [[user:SLaue|Steffen Laue]], [[user:CBlaeuer|Christine Bläuer]], Erwin Stadlbauer  
 
Authors: [[user:SLaue|Steffen Laue]], [[user:CBlaeuer|Christine Bläuer]], [[user:EStadlbauer|Erwin Stadlbauer]]
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{{EngVersion|text=[[CGerdwilker|Christa Gerdwilker]]}}




== Introduction and Definition ==
== Introduction and Definition ==


The term monitoring describes the systematic study and recording of processes with the help of technical instruments or other surveillance systems. Monitoring is used for surveillance and guidance in developing processes to prevent decay and incidents.
The term monitoring describes the systematic study and recording of processes with the help of technical instruments or other surveillance systems. Monitoring is used for recording and guidance in developing processes to prevent decay and incidents.
 
 


Within conservation and restoration of art and   style=""[#_msocom_1 [MSOffice1]]  property, monitoring is defined as an observation process to understand the deterioration mechanisms and thus be able to devise appropriate methods to achieve continuous care and long term preservation. Monitoring is the only method to gain knowledge about the complex interaction between all relevant factors within a building, e.g., materials and their properties, temperature and humidity changes, salts, microbiology and anthropogenic influences. Applying  the definition to salts in masonry and wall paintings, monitoring entails the systematic recording and observation of salts and/or salt decay as well as environmental parameters like climate or humidity changes [http://193.175.110.91/saltwiki/salzwiki/index.php?title=literature:Bibliography#Arnold.etal:1991 [Arnold.etal:1991]].
Within conservation and restoration of art and cultural property, monitoring is defined as an observation process to understand the deterioration mechanisms and thus be able to devise appropriate methods to achieve continuous care and long term preservation. Monitoring is the only method to gain knowledge about the complex interaction between all relevant factors within a building, e.g., materials and their properties, temperature and humidity changes, salts, microbiology and anthropogenic influences. Applying  the definition to salts in masonry and wall paintings, monitoring entails the systematic recording and observation of salts and/or salt decay as well as environmental parameters like climate or humidity changes [http://193.175.110.91/saltwiki/salzwiki/index.php?title=literature:Bibliography#Arnold.etal:1991 [Arnold.etal:1991]].


== Fundamental and framework conditions ==
== Fundamental and framework conditions ==


Monitoring of salts and salt decay can, depending on its objectives, be carried out to varying degrees of detail. Prior to beginning with the actual monitoring— and depending on the object and decay scenario—, the aim of the monitoring needs to be defined. Pre-requisite for this is a condition survey of the relevant object together with qualitative and, if necessary, also quantitative analysis of salt content [http://193.175.110.91/saltwiki/salzwiki/index.php?title=literature:Bibliography#Blaeuer-Boehm:1994 [Blaeuer-Boehm:1994]]Christine Bläuer-Böhm (1994).
Monitoring of salts and salt decay can, depending on its objectives, be carried out to varying degrees of detail. Prior to beginning the actual monitoring and depending on the object and decay scenario, the aim of the monitoring needs to be defined. Pre-requisite for this is a condition survey of the relevant object together with qualitative and, if necessary, also quantitative analysis of salt content [http://193.175.110.91/saltwiki/salzwiki/index.php?title=literature:Bibliography#Blaeuer-Boehm:1994 [Blaeuer-Boehm:1994]]Christine Bläuer-Böhm (1994).
 
 
Salzuntersuchungen an Baudenkmälern Zeitschrift für Kunsttechnologie und Konservierung.Show in Bibliography, [Steiger.etal:1998]Michael Steiger, Hans-Herrmann Neumann, Torsten Grodten, Christian Wittenburg, Walter Dannecker (1998).
Salze in Natursteinmauerwerk - Probennahme, Messung und Interpretation.Show in Bibliography ).


The aim of monitoring can, for example, serve to answer the following questions:
The aim of monitoring can, for example, serve to answer the following questions:


*What is the activation mechanism for the     crystallization of the salts present ?
*What is the activation mechanism for the crystallization of the salts present?
*When and in which climatic conditions will     the salts cause active damage?
*When and in which climatic conditions will the salts cause active damage?
*What kinetics does the process involve?
*What kinetics does the process involve?
*When is the best time for salt reduction     or other interventive measures?
*When is the best time for salt reduction or other intervention measures?
*What preventive measures are required?
*What preventive measures are required?


Additionally, it is necessary to consider if monitoring of clearly defined reference surfaces is preferable to monitoring the whole situation. The duration of possible preliminary investigations and subsequent monitoring also needs to be agreed at the beginning of the project unless its sole purpose is research based.
Additionally, it is necessary to consider if monitoring of clearly defined reference surfaces is preferable to monitoring the whole situation. The duration of possible preliminary investigations and subsequent monitoring also needs to be agreed on at the beginning of the project unless its sole purpose is research based.  


Prior to undertaking monitoring (which, depending on the nature of the problem, can be carried out before, during or after an intervention) the following points should be determined:
Prior to undertaking monitoring (which, depending on the nature of the problem, can be carried out before, during or after an intervention) the following points should be determined:


What is to be observed/measured?
#What is to be observed/measured? Examples: Efflorescence, quantitative amount of salt ions, decay (type and form), climate (air temperature, relative humidity, surface temperature), dampness horizons.
Examples: Efflorescence, quantitative amount of salt ions, decay (type and     form), climate (air temperature, relative humidity, surface temperature),     dampness horizons.
#Which area is to be observed and measured? To answer this question, in addition to the already mentioned condition survey, it is necessary  to consider whether the determination of monitoring locations would require additional preliminary investigations and if so, what are the properties of the object surface and substrate?
Which area is to be observed and measured? To answer this question, in addition to the already mentioned condition     surveys, it is necessary  to consider whether the determination of monitoring locations would require additional preliminary investigations and if so, what are the properties of the object surface and substrate?
#How long and at which intervals is monitoring to be carried out? The duration and cycles of observation need to be determined.
For how long and at which intervals is     monitoring to be carried out? The duration and cycles of observation need     to be determined.
#What is to be used for monitoring? Which methods and equipment are likely to obtain optimal results? Which methods and equipment are available? Is a macroscopic observation and    documentation of the processes sufficient or should recording equipment to measure climatic or surface conditions be used?
What is to be used for monitoring? Which     methods and equipment are likely to obtain optimal results? Which methods     and equipment are available? Is a macroscopic observation and    documentation of the processes sufficient or should recording equipment to     measure climatic or surface conditions be used?
#How detailed and precise should the recorded data be? How is the monitoring going to be documented? Have relevant guidelines or parameters been defined? At what intervals should the observations/measurements be carried out? How big is the risk that rare but special or important single events are not recorded? What should the quality benchmark be set at? Is the qualitative observation of changes sufficient or is the quantitative recording in the micro and nano scale required, e.g., with laser holography?
How detailed and precise should the     recorded data be? How is the monitoring going to be documented? Have relevant     guidelines or parameters been defined? At what intervals should the     observations/measurements be carried out? How big is the risk that rare     but special or important single events are not recorded? What should the     quality benchmark be set at? Is the qualitative observation of changes     sufficient or is the quantitative recording in the micro and nano scale     required, e.g., with laser holography?
#Who carries out the monitoring and who evaluates the results? Primarily this concerns the qualifications of the practitioner or commissioning person: Is specialist training/guidance   required? Are there objects/situations which require special training? Who interprets the results and who draws up the conclusions in relation to treatment recommendations?
Who carries out the monitoring and who     evaluates the results? Primarily this concerns the qualifications of the     practitioner or commissioning person: Is specialist training/guidance     required? Are there objects/situations which require special training? Who     interprets the results and who draws up the conclusions in relation to     treatment recommendations?


Monitoring is not the final objective in itself but merely a critical step in the process that needs to be followed to finally arrive at a solution to a problem The results will be  more meaningful if the relevant questions can be answered and if the procedure to be followed precisely defined. Monitoring is an adaptable process that requires open minded operators.
Monitoring is not the final objective in itself but merely a critical step in the process that needs to be followed to finally arrive at a solution to a problem The results will be  more meaningful if the relevant questions can be answered and if the procedure to be followed is precisely defined. Monitoring is an adaptable process that requires open minded operators.


Outlook
== Outlook ==


Monitoring of salts, salt decay and their environmental parameters is a very effective method of gaining understanding about the decay progress on an object. Suitable conservation and restoration measures can be developed based on the  monitoring results. It has been shown that optimal monitoring should be prepared with relevant preliminary investigations and organized and executed by trained personnel.
Monitoring of salts, salt decay and their environmental parameters is a very effective method of gaining understanding about the decay progress on an object. Suitable conservation and restoration measures can be developed based on the  monitoring results. It has been shown that optimal monitoring should be prepared with relevant preliminary investigations and organized and executed by trained personnel.
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In practice, optimal monitoring is rarely carried out because:
In practice, optimal monitoring is rarely carried out because:


a) it often costs too much time and money (but considerably less than failed intervention  measures) and
a) It often costs too much time and money (but considerably less than failed intervention  measures) and


b) predominantly because the effectiveness of monitoring is not known to or recognized by many owners or project agents.
b) Predominantly because the effectiveness of monitoring is not known to or recognized by many owners or project agents.


Far more education is required for these agents  but these must also show a willingness to learn and understand.
Far more education is required in this field for owners and clients as well as researchers, but a willingness to learn and understand is also needed.  


Additionally, further fundamental research requirements remain to specifically optimize monitoring of salts on objects. (This sentence is unclear to me)
Additionally, further fundamental research needs to be carried out to optimize monitoring processes of salts on objects.


Further research subjects to undertake would be among others:
Further research subjects to undertake would be among others:


Development of monitoring standards: i.e.,     is an objectification of    observations possible and how can this be achieved? (What is meant by    objectification?)
*Development of monitoring standards: e.g., is it possible to achieve objective observations and how can this be achieved?
Monitoring automation  does it make sense and if so, how can it be     applied in practice?
*Monitoring automation  does it make sense and if so, how can it be applied in practice?
Which types of professions should be     schooled in monitoring?
*Which types of professions should be trained in monitoring?
Development of so called „low-level-monitoring“     for smaller objects with less funding and/or time available.
*Development of so called „low-level-monitoring“ for smaller objects with less funding and/or time available.


== Literature overview ==
== Literature overview ==


Andreas Arnold can, without doubt, be described as a significant pioneer in monitoring salts. Together with his Zurich project team (especially with Andreas Kueng and Konrad Zehnder) he created substantial basis and provided important impulses for the research and practice in conservation and restoration during the 1980s and ‘90s. A few exemplary articles from the extensive list of publications of this and other project teams are listed here. The following sorting into two groups is intended to facilitate an easy overview and access.
Andreas Arnold can, without doubt, be described as a significant pioneer in monitoring salts. Together with his Zurich project team (especially with Andreas Kueng and Konrad Zehnder) he created a substantial basis and provided important impulses for the research and practice in conservation and restoration during the 1980s and ‘90s. A few exemplary articles from the extensive list of publications of this and other project teams are listed here. The following sorting into two groups is intended to facilitate an easy overview and access.


'''Articles which mainly deal with the basics and investigative methods:'''
'''Articles which mainly deal with the basics and investigative methods:'''


<bib id="Arnold.etal:1991" />, <bib id="Bionda:2004" />, <bib id="Blaeuer-Boehm:1994" />, <bib id="Franzen:2006" />, <bib id="Guelker.etal:2004" />, <bib id="Hammer:2001" />, <bib id="Laue:2002" />, <bib id="Leitner:2003" />, <bib id="Pinchin:2008" />, <bib id="Sawdy:2001" />, <bib id="Steiger.etal:1998" />, <bib id="WTA_E 4-5-99/D:1999" />, <bib id="Zier:2002" />. -->
<bib id="Arnold.etal:1991" />, <bib id="Bionda:2004" />, <bib id="Blaeuer-Boehm:1994" />, <bib id="Franzen:2006" />, <bib id="Guelker.etal:2004" />, <bib id="Hammer:2001" />, <bib id="Laue:2002" />, <bib id="Leitner:2003" />, <bib id="Pinchin:2008" />, <bib id="Sawdy:2001" />, <bib id="Steiger.etal:1998" />, <bib id="WTA_4-5-99/D:1999" />, <bib id="Zier:2002" />.  


'''Articles which primarily provide case studies of investigations of historic structures and wall paintings'''
'''Articles which primarily provide case studies of investigations of historic structures and wall paintings'''


<bib id="Behrens.etal:2005" /> <bib id="Häfner:2003" /> <bib id="Koehler:2003" /> <bib id="Laue:2005" /> <bib id="Laue:2006" /> <bib id="Sanders.etal:2005" /> <bib id="Sawdy.etal:2005a" /> <bib id="Sawdy.etal:2005b" /> <bib id="Tiano.etal:2008" /> <bib id="Zehnder:2007" />
<bib id="Behrens.etal:2005" /> <bib id="Haefner:2003" /> <bib id="Koehler:2003" /> <bib id="Laue:2005" /> <bib id="Laue:2006" /> <bib id="Sanders.etal:2005" /> <bib id="Sawdy.etal:2005a" /> <bib id="Sawdy.etal:2005b" /> <bib id="Tiano.etal:2008" /> <bib id="Zehnder:2007" />


== Literatur ==
== Literature ==


<bibprint />
<biblist />


[[Category:Untersuchungsmethoden]][[Category:Monitoring]] [[Category:R-SLaue]] [[Category:SLaue]] [[Category:EStadlbauer]][[Category:CBlaeuer]][[Category:inProgress]]
[[Category:investigation_Methods]][[Category:Monitoring]] [[Category:R-SLaue]] [[Category:Laue,Steffen]] [[Category:Stadlbauer,Erwin]][[Category:Bläuer,Christine]][[Category:approved]]
Rather than cultural property, which is too broad a category, I would suggest using architectural heritage.  Perhaps, archaeological heritage could also be mentioned, since there is the problem of salt in ceramics, but that is less of a problem than larger structures.

Latest revision as of 10:39, 20 September 2013


Authors: Steffen Laue, Christine Bläuer, Erwin Stadlbauer

back to Saltwiki:Community_portal


Introduction and Definition

The term monitoring describes the systematic study and recording of processes with the help of technical instruments or other surveillance systems. Monitoring is used for recording and guidance in developing processes to prevent decay and incidents.

Within conservation and restoration of art and cultural property, monitoring is defined as an observation process to understand the deterioration mechanisms and thus be able to devise appropriate methods to achieve continuous care and long term preservation. Monitoring is the only method to gain knowledge about the complex interaction between all relevant factors within a building, e.g., materials and their properties, temperature and humidity changes, salts, microbiology and anthropogenic influences. Applying the definition to salts in masonry and wall paintings, monitoring entails the systematic recording and observation of salts and/or salt decay as well as environmental parameters like climate or humidity changes [Arnold.etal:1991].

Fundamental and framework conditions

Monitoring of salts and salt decay can, depending on its objectives, be carried out to varying degrees of detail. Prior to beginning the actual monitoring and depending on the object and decay scenario, the aim of the monitoring needs to be defined. Pre-requisite for this is a condition survey of the relevant object together with qualitative and, if necessary, also quantitative analysis of salt content [Blaeuer-Boehm:1994]Christine Bläuer-Böhm (1994).

The aim of monitoring can, for example, serve to answer the following questions:

  • What is the activation mechanism for the crystallization of the salts present?
  • When and in which climatic conditions will the salts cause active damage?
  • What kinetics does the process involve?
  • When is the best time for salt reduction or other intervention measures?
  • What preventive measures are required?

Additionally, it is necessary to consider if monitoring of clearly defined reference surfaces is preferable to monitoring the whole situation. The duration of possible preliminary investigations and subsequent monitoring also needs to be agreed on at the beginning of the project unless its sole purpose is research based.

Prior to undertaking monitoring (which, depending on the nature of the problem, can be carried out before, during or after an intervention) the following points should be determined:

  1. What is to be observed/measured? Examples: Efflorescence, quantitative amount of salt ions, decay (type and form), climate (air temperature, relative humidity, surface temperature), dampness horizons.
  2. Which area is to be observed and measured? To answer this question, in addition to the already mentioned condition survey, it is necessary to consider whether the determination of monitoring locations would require additional preliminary investigations and if so, what are the properties of the object surface and substrate?
  3. How long and at which intervals is monitoring to be carried out? The duration and cycles of observation need to be determined.
  4. What is to be used for monitoring? Which methods and equipment are likely to obtain optimal results? Which methods and equipment are available? Is a macroscopic observation and documentation of the processes sufficient or should recording equipment to measure climatic or surface conditions be used?
  5. How detailed and precise should the recorded data be? How is the monitoring going to be documented? Have relevant guidelines or parameters been defined? At what intervals should the observations/measurements be carried out? How big is the risk that rare but special or important single events are not recorded? What should the quality benchmark be set at? Is the qualitative observation of changes sufficient or is the quantitative recording in the micro and nano scale required, e.g., with laser holography?
  6. Who carries out the monitoring and who evaluates the results? Primarily this concerns the qualifications of the practitioner or commissioning person: Is specialist training/guidance required? Are there objects/situations which require special training? Who interprets the results and who draws up the conclusions in relation to treatment recommendations?

Monitoring is not the final objective in itself but merely a critical step in the process that needs to be followed to finally arrive at a solution to a problem The results will be more meaningful if the relevant questions can be answered and if the procedure to be followed is precisely defined. Monitoring is an adaptable process that requires open minded operators.

Outlook

Monitoring of salts, salt decay and their environmental parameters is a very effective method of gaining understanding about the decay progress on an object. Suitable conservation and restoration measures can be developed based on the monitoring results. It has been shown that optimal monitoring should be prepared with relevant preliminary investigations and organized and executed by trained personnel.

In practice, optimal monitoring is rarely carried out because:

a) It often costs too much time and money (but considerably less than failed intervention measures) and

b) Predominantly because the effectiveness of monitoring is not known to or recognized by many owners or project agents.

Far more education is required in this field for owners and clients as well as researchers, but a willingness to learn and understand is also needed.

Additionally, further fundamental research needs to be carried out to optimize monitoring processes of salts on objects.

Further research subjects to undertake would be among others:

  • Development of monitoring standards: e.g., is it possible to achieve objective observations and how can this be achieved?
  • Monitoring automation - does it make sense and if so, how can it be applied in practice?
  • Which types of professions should be trained in monitoring?
  • Development of so called „low-level-monitoring“ for smaller objects with less funding and/or time available.

Literature overview

Andreas Arnold can, without doubt, be described as a significant pioneer in monitoring salts. Together with his Zurich project team (especially with Andreas Kueng and Konrad Zehnder) he created a substantial basis and provided important impulses for the research and practice in conservation and restoration during the 1980s and ‘90s. A few exemplary articles from the extensive list of publications of this and other project teams are listed here. The following sorting into two groups is intended to facilitate an easy overview and access.

Articles which mainly deal with the basics and investigative methods:

[Arnold.etal:1991]Title: Monitoring Wall Paintings Affected by soluble Salts
Author: Arnold, Andreas; Zehnder, Konrad
Link to Google Scholar
, [Bionda:2004]Title: Methodology for the preventive conservation of sensitive monuments: microclimate and salt activity in a church
Author: Bionda, Davide
Link to Google Scholar
, [Blaeuer-Boehm:1994]Title: Salzuntersuchungen an Baudenkmälern
Author: Bläuer-Böhm, Christine
Link to Google Scholar
, [Franzen:2006]Title: Analytische Begleitung von Salzreduzierungsmaßnahmen
Author: Franzen, Christoph
Link to Google Scholar
, [Guelker.etal:2004]Title: Monitoring of salt-induced deformations in porous systems by Microscopic Speckel Pattern Interferometry
Author: Gülker, Gerd; Hinsch, Klaus; El Jarad, A.
Link to Google Scholar
, [Hammer:2001]Title: Inhalte der visuellen Dokumentation in der Konservierung/Restaurierung von Wandmalerei/Architekturoberfläche
Author: Hammer, Ivo
Link to Google Scholar
, [Laue:2002]Title: Verwitterung von Naturstein durch lösliche Salze an wechselfeuchter Luft
Author: Laue, Steffen
Link to Google Scholar
, [Leitner:2003]Title: Die Rolle des Restaurators im interdisziplinären Feld der Erhaltung von salzbelasteten Wandmalereien
Author: Leitner, Heinz
Link to Google Scholar
, [Pinchin:2008]Title: Techniques for monitoring moisture in walls
Author: Pinchin, S. E.
Link to Google Scholar
, [Sawdy:2001]Title: The Kinetics of Salt Weathering of Porous Materials: Stone Monuments and Wall Painting
Author: Sawdy, Alison
Link to Google Scholar
, [Steiger.etal:1998]Title: Salze in Natursteinmauerwerk - Probennahme, Messung und Interpretation
Author: Steiger, Michael; Neumann, Hans-Herrmann; Grodten, Torsten; Wittenburg, Christian; Dannecker, Walter
Link to Google Scholar
, [WTA_4-5-99/D:1999]Title: Beurteilung von Mauerwerk, Mauerwerksdiagnostik
Author: WTA-Merkblatt 4-5-99/D
Link to Google Scholar
, [Zier:2002]Title: Untersuchung der Salzbelastung – Analysenmethoden, Bewertung, Grenzwerte
Author: Zier, Hans-Werner
Link to Google Scholar
.

Articles which primarily provide case studies of investigations of historic structures and wall paintings

[Behrens.etal:2005]Title: Wandmalerei-Referenzflächen-Monitoring am Beispiel der Stiftskirche Königslutter – Methoden und Erkenntnisse für die praktische Denkmalpflege
Author: Behrens, Elke; Berling, Helmut; Hornschuch, A.; Niemeyer, Rolf; Recker, Bernhard; Schwarz, Hans-Jürgen; Stadlbauer, Erwin
Link to Google Scholar
[Haefner:2003]Title: Die Verwendung von Kieselsäureester zur Festigung salzbelasteter Wandmalerei
Author: Häfner, Klaus
Link to Google Scholar
[Koehler:2003]Title: Zerstörungsfreie Untersuchungsmethoden an salzbelasteten Wandflächen
Author: Köhler, Wolfram
Link to Google Scholar
[Laue:2005]Title: Salt Weathering of Porous Structures Related to Climate Changes
Author: Laue, Steffen
Link to Google Scholar
[Laue:2006]Title: Untersuchungen zur Schadensdynamik löslicher Salze am Beispiel des Chores im Freiberger Dom
Author: Laue, Steffen
Link to Google Scholar
[Sanders.etal:2005]Title: Monitoring of the moisture and salt load in restoration plasters in St. Barbara's church in Culemborg
Author: Sanders, M. M.; Van Hees, Rob P. J.
Link to Google Scholar
[Sawdy.etal:2005a]Title: Salt damage at Cleeve Abbey, England. Part I: A comparison of theoretical predictions and practical observations
Author: Sawdy, Alison; Price, Clifford
Link to Google Scholar
[Sawdy.etal:2005b]Title: Salt damage at Cleeve Abbey, England. Part II: seasonal variability of salt distribution and implications for sampling strategies
Author: Sawdy, Alison; Price, Clifford
Link to Google Scholar
[Tiano.etal:2008]Title: In situ monitoring of monumental surfaces
Author: Tiano, P.; Pardini, C.
Link to Google Scholar
[Zehnder:2007]Title: Long-term monitoring of wall paintings affected by soluble salts
Author: Zehnder, Konrad
Link to Google Scholar

Literature

[Arnold.etal:1991]Arnold, Andreas; Zehnder, Konrad (1991): Monitoring Wall Paintings Affected by soluble Salts. In: Cather, Sharon (eds.): 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, The Getty Conservation Institute, 103-136.Link to Google Scholar
[Behrens.etal:2005]Behrens, Elke; Berling, Helmut; Hornschuch, A.; Niemeyer, Rolf; Recker, Bernhard; Schwarz, Hans-Jürgen; Stadlbauer, Erwin (2005): Wandmalerei-Referenzflächen-Monitoring am Beispiel der Stiftskirche Königslutter – Methoden und Erkenntnisse für die praktische Denkmalpflege. In: Berichte zur Denkmalpflege in Niedersachsen, (1), 9-12Link to Google Scholar
[Bionda:2004]Bionda, Davide (2004): Methodology for the preventive conservation of sensitive monuments: microclimate and salt activity in a church. In: Kwiatkowski, Daniel; Löfvendahl, Runo (eds.): Proceedings of the 10th International Congress on Deterioration and Conservation of Stone, Stockholm, June 27 - July 2, ICOMOS Sweden, 627-634.Link to Google Scholar
[Blaeuer-Boehm:1994]Bläuer-Böhm, Christine (1994): Salzuntersuchungen an Baudenkmälern. In: Zeitschrift für Kunsttechnologie und Konservierung, 8 (1), 86-103Link to Google Scholar
[Franzen:2006]Franzen, Christoph (2006): Analytische Begleitung von Salzreduzierungsmaßnahmen. In: IDK (eds.): Praxisoriertierte Forschung in der Denkmalpflege - 10 Jahre IDK. (Beiträge der Fachtagung in Halle 2006), , 31-40.Link to Google Scholar
[Guelker.etal:2004]Gülker, Gerd; Hinsch, Klaus; El Jarad, A. (2004): Monitoring of salt-induced deformations in porous systems by Microscopic Speckel Pattern Interferometry. In: Kwiatkowski, Daniel; Löfvendahl, Runo (eds.): 10th International Congress on Deterioration and Conservation of Stone, Proceedings, Stockholm, June 27 - July 2, , 619-626.Link to Google Scholar
[Haefner:2003]Häfner, Klaus (2003): Die Verwendung von Kieselsäureester zur Festigung salzbelasteter Wandmalerei. In: Leitner, Heinz; Laue, Steffen; Siedel, Heiner (eds.): Mauersalze und Architekturoberflächen, Hochschule für Bildende Künste, 107-120.Link to Google Scholar
[Hammer:2001]Hammer, Ivo (2001): Inhalte der visuellen Dokumentation in der Konservierung/Restaurierung von Wandmalerei/Architekturoberfläche. In: Niedersächsische Denkmalpflege, 16 (), 401-423Link to Google Scholar
[Koehler:2003]Köhler, Wolfram (2003): Zerstörungsfreie Untersuchungsmethoden an salzbelasteten Wandflächen. In: Leitner, Heinz; Laue, Steffen; Siedel, Heiner (eds.): Mauersalze und Architekturoberflächen, Hochschule für Bildende Künste, 51-56.Link to Google Scholar
[Laue:2002]Laue, Steffen (2002): Verwitterung von Naturstein durch lösliche Salze an wechselfeuchter Luft. In: Institut für Steinkonservierung e.V. (IFS) (eds.): IFS-Tagung 2002: Salze im historischen Natursteinmauerwerk, IFS, Mainz, 19-30.Link to Google ScholarFulltext link
[Laue:2005]Laue, Steffen (2005): Salt Weathering of Porous Structures Related to Climate Changes. In: Bauinstandsetzen und Baudenkmalpflege, 11 (6), 381-390Link to Google ScholarFulltext link
[Laue:2006]Laue, Steffen (2006): Untersuchungen zur Schadensdynamik löslicher Salze am Beispiel des Chores im Freiberger Dom. In: Institut ü¼r Diagnostik und Konservierung an Denkmalen in Sachsen und Sachsen-Anhalt e.V. (eds.): Praxisorientierte Forschung in der Denkmalpflege, 10 Jahre IDK, Beiträge der Fachtagung am 19.9.2006, , 109-115.Link to Google Scholar
[Leitner:2003]Leitner, Heinz (2003): Die Rolle des Restaurators im interdisziplinären Feld der Erhaltung von salzbelasteten Wandmalereien. In: Leitner, Heinz; Laue, Steffen; Siedel, Heiner (eds.): Mauersalze und Architekturoberflächen, Hochschule für Bildende Künste, 65-71.Link to Google Scholar
[Pinchin:2008]Pinchin, S. E. (2008): Techniques for monitoring moisture in walls. In: Reviews in Conservation, 9 (), 33-45Link to Google Scholar
[Sanders.etal:2005]Sanders, M. M.; Van Hees, Rob P. J. (2005): Monitoring of the moisture and salt load in restoration plasters in St. Barbara's church in Culemborg. In: Groot, C. (eds.): Proc. Workshop RILEM Technical Committee 'Repair mortars for historic masonry', January, 2005., .Link to Google Scholar
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