雾化水汽法治理硅酸盐质材料盐害的控盐

针对盐害治理目前常用的表面贴敷法、浸泡法等易造成硅酸盐材料二次破坏的问题，采用新型的雾化水汽控盐-脱盐法，借助激光粒度分析仪、X射线衍射仪、可见短波红外高光谱成像系统和离子色谱仪等手段，检测了对表面即将发生盐害的试样治理前后内部盐分的分布变化。结果表明：雾化水汽进入试样后对试样的润湿面为以喷雾点为中心的半球面，试样浅表层的盐分被运移到半球状润湿面外，得到了雾化水汽法控盐的路线，初步验证了雾化水汽法预防性治理硅酸盐质材料盐害的可行性。

Abstract

The salt control and desalination for treating the secondary damage of silicate materials caused by sticking ointment and soaking method commonly used in salt damage control were investigated by a spraying atomized water vapor method. The salt distributions in the samples before and after treatment were analyzed by laser particle size analysis, X-ray diffraction, visible shortwave infrared hyperspectral imaging analysis and ion chromatograph. The results show that after the atomized water vapor enters the sample, the area where the sample is wetted is a hemisphere centered on the spray point, and the salt in the superficial layer of the sample is transported to the outside of the hemispherical wetting area. Also, the route of controlling the salt distribution by atomized water vapor was proposed, and the feasibility of preventive treatment of salt damage in silicate material was preliminarily verified.

参考文献

[1] 干福熹. 硅酸盐质文物--先秦中外文化和技术交流的见证［C］// 文化遗产保护科技发展国际研讨会. 中国文物研究所, 2005: 13-18.

[2] ZHAO J, LUO H, HUANG X. Migration, distribution, and crystallization of NaCl and Na2SO4 solutions in three different media［J］. Crystals, 2020, 10(6): 444.

[3] ANDREOTTI S, FRANZONI E, RUIZ-AGUDO E, et al. New polymer-based treatments for the prevention of damage by salt crystallization in stone［J］. Mater Struct, 2019, 52(1): 1-28.

[4] REN J, SONG Y, LI Q, et al. Salt freeze-thaw damage characteristics of concrete based on computed tomography［J］. The Vjesn, 2019, 26(6): 1753-1763.

[5] WELLMAN H W, WILSON A T. Salt weathering, a neglected geological erosive agent in coastal and arid environments［J］. Nature, 1965, 205(4976): 1097-1098.

[6] RRIG-DALGAARD I. Development of a poultice for electrochemical desalination of porous building materials: desalination effect and pH changes［J］. Mater Struct, 2013, 46(6): 959-970.

[7] 靳治良, 刘端端, 张永科, 等. 盐分在文物本体中的迁移及毁损机理［J］. 文物保护与考古科学, 2017, 29(5): 104-118.

[8] ZHAO J, LUO H, WANG L, et al. Efflorescence on excavated pottery from the Han tomb in Dongnan Town, Shaanxi, China［J］. Stud Conserv, 2014, 59(S1): S287-S288.

[9] RIVAS T, FEIJOO J, DE R I, et al. Use of ferrocyanides on granite desalination by immersion and poultice-based methods［J］. Int J Archit Herit, 2017, 11(4): 588-606.

[10] BRADLEY S M, THICKETT D. An investigation into the movement of moisture and soluble salts in stone: preliminary observations and experiments［C］. Proceedings of the 7th International Congress on Deterioration and Conservation of Stone. Portugal: Lisbon, 1992: 15-18.

[11] SIEDEL H. Experiences from desalting of tuffstone and sandstone monuments by compresses［M］//Le dessalement des matériaux poreux: 7èmes journées d'études de la SFIIC, Poitiers, 1996: 191-198.

[12] RANDAZZO L, MONTANA G, CASTIGLIA A, et al. Salt extraction from lime-based mortars: An experimental study using different poultice formulations［J］. Constr Build Mater, 2020, 255: 119391.

[13] MATTEINI M. Inorganic treatments for the consolidation and protection of stone artefacts［J］. Conserv Sci C Herit, 2008, 8: 13-27.

[14] LARSEN P K, BLLINGTOFT P. The use of passive climate control to prevent salt decay in Danish churches［C］//Mauersalze und Architecturoberflchen, Hochschule für Bildende Künste Dresden, 2002: 90-93.

[15] VERGS-BELMIN. Desalination of porous building materials: a review［C］// European Research on Cultural Heritage: State-of-the-art Studies, Czech Republic: Institute of Theoretical and Applied Mechanics, 2006: 249-274.

[16] ZHANG Y F, ANGELIDAKI I. A new method for in situ nitrate removal from groundwater using submerged microbial desalination- denitrification cell (SMDDC)［J］. Water Res, 2013, 47(5): 1827-1836.

[17] 苏东黎. 砖石文物的脱盐研究［J］. 洛阳理工学院学报(社会科学版), 2020, 35(5): 78-81.

[18] 彭逸飞, 赵黎丽. 古青砖电化学脱盐方法的探索性研究［J］. 当代化工研究, 2019(16): 102-104.

[19] 张秉坚, 刘仁植. 一种使用结晶抑制剂的石材和石质文物的脱盐方法［P］. 浙江: CN101921135A, 2010-12-22.

[20] 罗宏杰, 李强, 赵静. 一种用于硅酸盐质文物样品的雾化水汽控盐方法［P］. 上海市: CN107185781B, 2020-12-11.

[21] U. S. Salinity Laboratory Staff. Determination of the properties of saline and alkali soils［J］. Agric Handb, 1954(60): 7-33.

[22] 冉广芬, 马海州. 硫酸根分析技术及应用现状［J］. 盐湖研究, 2009, 17(4): 58-62.

[23] (英) HALL C, HOFF W著, 建筑材料水分传输(原书第二版)［M］. 周春圣等译, 北京: 科学出版社, 2020.

[24] SCHERER G W. Theory of drying［J］. J Am Ceram Soc, 1990, 73(1): 3-14.

[25] HALL C, HOFF W D, NIXON M R. Water movement in porous building materials-VI. Evaporation and drying in brick and block materials［J］. Build Environ, 1984, 19(1): 13-20.

[26] 纪艳青. 不同灌水方式下设施土壤无机阴离子的运移分布规律研究［D］. 泰安: 山东农业大学, 2007.

[27] TANG L. Chloride transport in concrete-measurement and prediction［D］. Chalmers University of Technology, Sweden, Doctor Thesis, 1996

王忠伟, 罗宏杰, 黄晓, 赵静, 李强, 杨龙康, 高戈. 雾化水汽法治理硅酸盐质材料盐害的控盐[J]. 硅酸盐学报, 2022, 50(2): 298. WANG Zhongwei, LUO Hongjie, HUANG Xiao, ZHAO Jing, LI Qiang, YANG Longkang, GAO Ge. Controlling Salt-Induced Damage of Silicate Materials by Atomized Water Vapor Method[J]. Journal of the Chinese Ceramic Society, 2022, 50(2): 298.

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