Salt Crystallization in Porous Materials : Physicochemical Aspects and Effects of Anti-Scaling Additives.

Science, Technology and Cultural Heritage Pub Date : 1900-01-01 DOI:10.1400/19135

P. Baglioni, G. Bitossi, L. Dei, S. Rescic, F. Fratini

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引用次数: 1

Abstract

Investigates the mechanism of crystal growth of some inorganic within porous substrates, in order to explain the processes of alteration of the porous material surfaces in architectural and artistic conservation. In particular, attention focused on salt crystallization in the presence of some organo-aza-phosphonate compounds, additives known as anti-scaling agents, able to prevent and/or inhibit nucleation and growth of solid phases from saturated and supersaturated salty solutions. The applicative goal was to understand how the action of these additives could represent an innovative methodology in the field of preventive conservation, in order to reduce and limit the damages on monuments, historical buildings, and mural paintings deriving from the presence of crystallization/solubilization cycles. The experimental study was carried out by investigating the physical-structural properties, namely porosity, and the changes in morphology (by SEM and ESEM) due to salt crystallization (KNO3 and Na2SO4) within porous materials of artistic or architectonic interest (stones, aerial mortars) and the effect of the anti-scaling additives in minimizing damage on porous materials.

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多孔材料中的盐结晶:物理化学方面和抗结垢添加剂的作用。

研究一些无机材料在多孔基质中的晶体生长机制，以解释建筑和艺术保护中多孔材料表面变化的过程。特别是，人们的注意力集中在一些有机氮杂膦酸盐化合物的存在下的盐结晶上，这些化合物被称为抗结垢剂，能够防止和/或抑制饱和和过饱和盐溶液中固相的成核和生长。应用目标是了解这些添加剂的作用如何在预防性保护领域代表一种创新方法，以减少和限制因结晶/溶解循环的存在而对纪念碑、历史建筑和壁画的损害。实验研究是通过研究具有艺术或建筑价值的多孔材料(石头、航空砂浆)中盐结晶(KNO3和Na2SO4)导致的物理结构特性，即孔隙率和形貌变化(通过SEM和ESEM)，以及抗结垢添加剂对减少多孔材料损伤的作用来进行的。

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Science, Technology and Cultural Heritage

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