Flexible-rigid hybrid siloxane network for stone heritage conservation

IF 3.5 2区 综合性期刊 0 ARCHAEOLOGY
Zheng Li , Chen Jia , Jinhua Wang , Ying Liu , Hao Wu , Wei Luo , Rong Wang , Jizhong Huang , Fanxing Bu
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Abstract

Siloxane oligomers produced through the hydrolysis of tri-alkoxysilanes or tetra-alkoxysilanes have been widely used as consolidants for stone heritage. However, the resulting xerogels tend to crack due to the volume shrinkage after curing. In this study, a novel flexible-rigid hybrid siloxane oligomer material is designed by the self-catalyzed copolymerization of di-alkoxysilane (3-Aminopropyl) dimethoxymethylsilane with tetra-alkoxysilane tetraethyl orthosilicate. The flexible linear SiOSi segments produced by di-alkoxysilane are inserted into the tetra-alkoxysilane derived rigid three-dimensional silicon-oxygen domains, as confirmed by spectroscopic characterizations. This unique structure alleviates the shrinkage stress during curing and enables the formation of crack-free xerogels. Therefore, the hybrid siloxane oligomer can invade into the interior of weathered stone to form one three-dimensional continuous network to strengthen its fragile structure. As a result, the flexible-rigid hybrid siloxane oligomer outperforms both as-made polysiloxane consolidant and commercial consolidant for the consolidation of the weathered Tianlong Mountain Grottoes stone samples. The consolidation treatment was evaluated in terms of effectiveness (Leeb hardness, ultrasonic velocity and compressive strength) and compatibility (pore size distribution, water vapor transmission rate and color variation). Following the treatment, the consolidated samples demonstrate remarkable improvements in mechanical properties, reaching a Leeb hardness of 410 HL and a compressive strength of 8.98 Mpa. Additionally, permeability and color variation of the stone after consolidation are all within acceptable ranges. The results confirm the positive consolidation performance of the flexible-rigid hybrid siloxane oligomer on weathered Tianlong Mountain Grottoes stone, indicating promising practical applications.

Abstract Image

用于石质文物保护的柔性-刚性混合硅氧烷网络
通过水解三烷氧基硅烷或四烷氧基硅烷产生的硅氧烷低聚物已被广泛用作石材遗产的固化剂。然而,由于固化后体积收缩,生成的异凝胶容易开裂。在这项研究中,通过自催化二烷氧基硅烷(3-氨基丙基)二甲氧基甲基硅烷与四烷氧基硅烷四乙基正硅酸盐的共聚,设计出了一种新型柔韧混合硅氧烷低聚物材料。光谱特性证实,二烷氧基硅烷产生的柔性线性 SiOSi 段插入了四烷氧基硅烷产生的刚性三维硅氧域。这种独特的结构可减轻固化过程中的收缩应力,从而形成无裂纹的异凝胶。因此,混合硅氧烷低聚物可以侵入风化石材内部,形成一个三维连续网络,从而加固其脆弱的结构。因此,在风化天龙山石窟石材样品的加固处理中,柔韧-刚性混合硅氧烷低聚物的效果优于自制聚硅氧烷加固剂和商用加固剂。对固结处理的效果(里氏硬度、超声波速度和抗压强度)和相容性(孔径分布、水蒸气透过率和颜色变化)进行了评估。处理后,固结样品的机械性能显著提高,里氏硬度达到 410 HL,抗压强度达到 8.98 Mpa。此外,固结后石材的渗透性和颜色变化都在可接受的范围内。这些结果证实了柔性-刚性混合硅氧烷低聚物在风化天龙山石窟石材上的良好固结性能,表明其具有广阔的实际应用前景。
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来源期刊
Journal of Cultural Heritage
Journal of Cultural Heritage 综合性期刊-材料科学:综合
CiteScore
6.80
自引率
9.70%
发文量
166
审稿时长
52 days
期刊介绍: The Journal of Cultural Heritage publishes original papers which comprise previously unpublished data and present innovative methods concerning all aspects of science and technology of cultural heritage as well as interpretation and theoretical issues related to preservation.
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