In masonry materials, the superficial decay is a widespread problem. Aggressive environmental agents such as moisture and salts trigger the damage by propagating through the material capillary pores. Although several studies have been carried out on salt crystallization and their damaging effects, additional research effort is required to better investigate this phenomenon on real cases and real weathering conditions. To this purpose, testing and monitoring tools capable of following degradation process since the early beginning are necessary. Repeated visual inspections are commonly used to monitor the superficial decay, but this is a subjective technique not capable of providing any quantitative information. In this work, an experimental campaign, carried out in Bologna, Italy, is presented. A 2-header brick wall, one main face unplastered and one plastered, was stored outdoors and exposed to weathering over two summers. Before the start of the second ageing season, moisture and salt capillary rise was simulated by low-concentrated sodium chloride solution (0.1% -wt). The aim was to favour solution evaporation and salt crystallization and to provoke material damage. The degradation process was monitored based on a contactless, rapid and accurate image diagnostic technique. In particular, high-resolution laser scanning by triangulation technique was adopted. 3D data acquisition was repeated at the end of both seasons. The proposed procedure successfully extracted quantitative information about areas of material spalling and detachment even in the initial phases of decay.

Bitelli, G., Colla, C., Gabrielli, E., Girardi, F., Ubertini, F. (2015). Salt Effects in Plastered and Unplastered Outdoors Brick Masonry: Quantitative Laser Monitoring of Surface Decay Evolution. INTERNATIONAL JOURNAL OF ARCHITECTURAL HERITAGE, 9(5), 581-593 [10.1080/15583058.2013.821542].

Salt Effects in Plastered and Unplastered Outdoors Brick Masonry: Quantitative Laser Monitoring of Surface Decay Evolution

BITELLI, GABRIELE;COLLA, CAMILLA;GABRIELLI, ELENA;GIRARDI, FABRIZIO;UBERTINI, FRANCESCO
2015

Abstract

In masonry materials, the superficial decay is a widespread problem. Aggressive environmental agents such as moisture and salts trigger the damage by propagating through the material capillary pores. Although several studies have been carried out on salt crystallization and their damaging effects, additional research effort is required to better investigate this phenomenon on real cases and real weathering conditions. To this purpose, testing and monitoring tools capable of following degradation process since the early beginning are necessary. Repeated visual inspections are commonly used to monitor the superficial decay, but this is a subjective technique not capable of providing any quantitative information. In this work, an experimental campaign, carried out in Bologna, Italy, is presented. A 2-header brick wall, one main face unplastered and one plastered, was stored outdoors and exposed to weathering over two summers. Before the start of the second ageing season, moisture and salt capillary rise was simulated by low-concentrated sodium chloride solution (0.1% -wt). The aim was to favour solution evaporation and salt crystallization and to provoke material damage. The degradation process was monitored based on a contactless, rapid and accurate image diagnostic technique. In particular, high-resolution laser scanning by triangulation technique was adopted. 3D data acquisition was repeated at the end of both seasons. The proposed procedure successfully extracted quantitative information about areas of material spalling and detachment even in the initial phases of decay.
2015
Bitelli, G., Colla, C., Gabrielli, E., Girardi, F., Ubertini, F. (2015). Salt Effects in Plastered and Unplastered Outdoors Brick Masonry: Quantitative Laser Monitoring of Surface Decay Evolution. INTERNATIONAL JOURNAL OF ARCHITECTURAL HERITAGE, 9(5), 581-593 [10.1080/15583058.2013.821542].
Bitelli, Gabriele; Colla, Camilla; Gabrielli, Elena; Girardi, Fabrizio; Ubertini, Francesco
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11585/531084
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