SWBSS2014 Proceedings: Difference between revisions
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Each paper can be downloaded separately: | Each paper can be downloaded separately: | ||
[[:File:1 SWBSS-2014 DiazGonclaves etal.pdf| Drying of porous building materials possibly contaminated with soluble salts: summary and findings of the DRYMASS research project. '''T. Diaz Gonçalves''', V. Brito, J. Musacchi, L. Pel, T. Saidov, J. Delgado Rodrigues, D. Costa and J.M. Mimoso]]. | [[:File:1 SWBSS-2014 DiazGonclaves etal.pdf| Drying of porous building materials possibly contaminated with soluble salts: summary and findings of the DRYMASS research project. | ||
'''T. Diaz Gonçalves''', V. Brito, J. Musacchi, L. Pel, T. Saidov, J. Delgado Rodrigues, D. Costa and J.M. Mimoso]]. | |||
[[:File:2 SWBSS-2014 Desarnaud etal.pdf|Nucleation and growth of sodium chloride in confined geometries. '''J. Desarnaud''', H. Derluyn, J. Carmeliet, D. Bonn and N. Shahidzadeh]]. | [[:File:2 SWBSS-2014 Desarnaud etal.pdf|Nucleation and growth of sodium chloride in confined geometries. | ||
'''J. Desarnaud''', H. Derluyn, J. Carmeliet, D. Bonn and N. Shahidzadeh]]. | |||
[[:File:3 SWBSS-2014 Stahlbuhk etal.pdf|Influence of the salt concentration on the damage potential of mirabilite and thenardite. '''A. Stahlbuhk''', J. Nissen, K. Linnow and M. Steiger]]. | [[:File:3 SWBSS-2014 Stahlbuhk etal.pdf|Influence of the salt concentration on the damage potential of mirabilite and thenardite. | ||
'''A. Stahlbuhk''', J. Nissen, K. Linnow and M. Steiger]]. | |||
Salt damage risk prediction for porous limestones. '''H. Derluyn''', P. Moonen, T. Diaz-Gonçalves, V. Cnudde and J. Carmeliet | Salt damage risk prediction for porous limestones. | ||
'''H. Derluyn''', P. Moonen, T. Diaz-Gonçalves, V. Cnudde and J. Carmeliet | |||
Peering into the rock: a 4D synchrotron study of salt solution movement within masonry sandstone. '''C. Graham''', M. Lee, V. Phoenix and M. Young | Peering into the rock: a 4D synchrotron study of salt solution movement within masonry sandstone. | ||
'''C. Graham''', M. Lee, V. Phoenix and M. Young | |||
Paradoxical drying due to salt crystallization; the effect of ferrocyanide. '''L. Pel''' and S. Gupta | Paradoxical drying due to salt crystallization; the effect of ferrocyanide. | ||
'''L. Pel''' and S. Gupta | |||
The effect of ferrocyanide ions on sodium chloride crystallization in salt mixtures as studied by NMR. L. Pel, S. Gupta, and M. Steiger | The effect of ferrocyanide ions on sodium chloride crystallization in salt mixtures as studied by NMR. | ||
'''L. Pel''', S. Gupta, and M. Steiger | |||
Investigating a method to limit damage in Globigerina Limestone, a soft porous stone widely used in historic buildings. '''S. Sammut''', J. Cassar, A. Marrocchi, C. Russo, L. Sommei and M.L. Santarelli | Investigating a method to limit damage in Globigerina Limestone, a soft porous stone widely used in historic buildings. | ||
'''S. Sammut''', J. Cassar, A. Marrocchi, C. Russo, L. Sommei and M.L. Santarelli | |||
Gypsum efflorescence under laboratory conditions: preliminary study. '''J. Chwast''', H. Janssen and J. Elsen | Gypsum efflorescence under laboratory conditions: preliminary study. | ||
'''J. Chwast''', H. Janssen and J. Elsen | |||
Numerical simulation of gypsum transport and crystallization. J. Todorović and H. Janssen | Numerical simulation of gypsum transport and crystallization. | ||
'''J. Todorović''' and H. Janssen | |||
Crystallization behavior of a Na2SO4–MgSO4 salt mixture and comparison to single salt behavior. N. Lindström, T. Talreja, K. Linnow and M. Steiger | Crystallization behavior of a Na2SO4–MgSO4 salt mixture and comparison to single salt behavior. | ||
'''N. Lindström''', T. Talreja, K. Linnow and M. Steiger | |||
The crystallization behavior of sodium magnesium sulfate in limestone. S. Godts, R. Hendrickx and H. De Clercq | The crystallization behavior of sodium magnesium sulfate in limestone. | ||
'''S. Godts''', R. Hendrickx and H. De Clercq | |||
Common salt mixtures database: a tool to identify research needs. S. Godts, R. Hayen and H. De Clercq | Common salt mixtures database: a tool to identify research needs. | ||
'''S. Godts''', R. Hayen and H. De Clercq | |||
Further steps towards the solution of Correns’ dilemma. F. Caruso and R. J. Flatt | Further steps towards the solution of Correns’ dilemma. | ||
'''F. Caruso''' and R. J. Flatt | |||
Experimental study on salt deterioration of salt contaminated earthen materials under dry-wet cycles. Y.X. Shen, W.W. Chen, J. Kuang and W.F. Du | Experimental study on salt deterioration of salt contaminated earthen materials under dry-wet cycles. | ||
'''Y.X. Shen''', W.W. Chen, J. Kuang and W.F. Du | |||
Determination of the deliquescence point in salt mixtures and in in-situ multicomponent salts with DVS equipment. I. Rörig-Dalgaard | Determination of the deliquescence point in salt mixtures and in in-situ multicomponent salts with DVS equipment. | ||
'''I. Rörig-Dalgaard''' | |||
Measurement of sorption isotherm of porous materials influenced by salt. M. Abuku, D. Ogura, S. Hokoi, C. Iba, S. Wakiya and T.Uno | Measurement of sorption isotherm of porous materials influenced by salt. | ||
'''M. Abuku''', D. Ogura, S. Hokoi, C. Iba, S. Wakiya and T.Uno | |||
Porosity changes after different temperature regimes for a salt weathering simulation test on Mokkattam limestone. N. Aly, M. Gomez-Heras, A. Hamed, M. Alvarez de Buergo and F. Soliman | Porosity changes after different temperature regimes for a salt weathering simulation test on Mokkattam limestone. | ||
'''N. Aly''', M. Gomez-Heras, A. Hamed, M. Alvarez de Buergo and F. Soliman |
Revision as of 14:04, 20 October 2014
The original papers of the SWBSS 2014 conference can be downloaded as one file here. They are published by KIK-IRPA as a book in October 2014 and presented at the conference.
Each paper can be downloaded separately:
Salt damage risk prediction for porous limestones. H. Derluyn, P. Moonen, T. Diaz-Gonçalves, V. Cnudde and J. Carmeliet
Peering into the rock: a 4D synchrotron study of salt solution movement within masonry sandstone. C. Graham, M. Lee, V. Phoenix and M. Young
Paradoxical drying due to salt crystallization; the effect of ferrocyanide. L. Pel and S. Gupta
The effect of ferrocyanide ions on sodium chloride crystallization in salt mixtures as studied by NMR. L. Pel, S. Gupta, and M. Steiger
Investigating a method to limit damage in Globigerina Limestone, a soft porous stone widely used in historic buildings. S. Sammut, J. Cassar, A. Marrocchi, C. Russo, L. Sommei and M.L. Santarelli
Gypsum efflorescence under laboratory conditions: preliminary study. J. Chwast, H. Janssen and J. Elsen
Numerical simulation of gypsum transport and crystallization. J. Todorović and H. Janssen
Crystallization behavior of a Na2SO4–MgSO4 salt mixture and comparison to single salt behavior. N. Lindström, T. Talreja, K. Linnow and M. Steiger
The crystallization behavior of sodium magnesium sulfate in limestone. S. Godts, R. Hendrickx and H. De Clercq
Common salt mixtures database: a tool to identify research needs. S. Godts, R. Hayen and H. De Clercq
Further steps towards the solution of Correns’ dilemma. F. Caruso and R. J. Flatt
Experimental study on salt deterioration of salt contaminated earthen materials under dry-wet cycles. Y.X. Shen, W.W. Chen, J. Kuang and W.F. Du
Determination of the deliquescence point in salt mixtures and in in-situ multicomponent salts with DVS equipment. I. Rörig-Dalgaard
Measurement of sorption isotherm of porous materials influenced by salt. M. Abuku, D. Ogura, S. Hokoi, C. Iba, S. Wakiya and T.Uno
Porosity changes after different temperature regimes for a salt weathering simulation test on Mokkattam limestone. N. Aly, M. Gomez-Heras, A. Hamed, M. Alvarez de Buergo and F. Soliman