Enhancement of the hygrothermal ageing properties of gelatine films by ethylene glycol diglycidyl ether

IF 2.6 1区艺术学 Q2 CHEMISTRY, ANALYTICAL Heritage Science Pub Date : 2024-08-16 DOI:10.1186/s40494-024-01413-z

Jiaojiao Liu, Wenqiang Dong, Junchang Yang, Zhongwei Chen, Jing Cao, Ran Chen

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Abstract

Owing to the instability of gelatine in hygrothermal environments, gelatine-based cultural heritage undergo various deterioration processes, such as cracking, peeling, warping, curling and fracture, posing significant threats to its long-term preservation. Building on previous research, this study investigates the stability of polyol glycidyl ether–gelatine composite films under high-humidity and high-temperature conditions using ethylene glycol diglycidyl ether (EGDE) as a model compound. The hygrothermal ageing properties of EGDE–gelatine composite films are evaluated in terms of macrosize, mesoscopic structure, surface properties and mechanical properties. Results indicate that EGDE enhances the dimensional stability and swelling ratios of the composite films, stabilizes the pore structure and distribution and maintains the hydrophilicity and molecular structural stability under hygrothermal ageing conditions. Furthermore, the incorporation of EGDE leads to superior stress–strain properties of the composite films in such challenging environments. This study provides valuable experimental data for the preparation and conservation applications of gelatine-based cultural heritage materials.

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乙二醇二缩水甘油醚增强明胶薄膜的湿热老化性能

由于明胶在湿热环境中的不稳定性，以明胶为基础的文化遗产会经历各种劣化过程，如开裂、剥落、翘曲、卷曲和断裂，对其长期保存构成重大威胁。在以往研究的基础上，本研究以乙二醇二缩水甘油醚（EGDE）为模型化合物，研究了多元醇缩水甘油醚-明胶复合薄膜在高湿和高温条件下的稳定性。从宏观尺寸、中观结构、表面特性和机械特性等方面评估了乙二醇二缩水甘油醚-明胶复合薄膜的湿热老化特性。结果表明，在湿热老化条件下，EGDE 增强了复合薄膜的尺寸稳定性和膨胀率，稳定了孔隙结构和分布，并保持了亲水性和分子结构稳定性。此外，EGDE 的加入还使复合薄膜在这种具有挑战性的环境中具有优异的应力-应变特性。这项研究为明胶基文化遗产材料的制备和保护应用提供了宝贵的实验数据。

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来源期刊

Heritage Science Arts and Humanities-Conservation

CiteScore

4.00

自引率

20.00%

发文量

183

审稿时长

19 weeks

期刊介绍： Heritage Science is an open access journal publishing original peer-reviewed research covering: Understanding of the manufacturing processes, provenances, and environmental contexts of material types, objects, and buildings, of cultural significance including their historical significance. Understanding and prediction of physico-chemical and biological degradation processes of cultural artefacts, including climate change, and predictive heritage studies. Development and application of analytical and imaging methods or equipments for non-invasive, non-destructive or portable analysis of artwork and objects of cultural significance to identify component materials, degradation products and deterioration markers. Development and application of invasive and destructive methods for understanding the provenance of objects of cultural significance. Development and critical assessment of treatment materials and methods for artwork and objects of cultural significance. Development and application of statistical methods and algorithms for data analysis to further understanding of culturally significant objects. Publication of reference and corpus datasets as supplementary information to the statistical and analytical studies above. Description of novel technologies that can assist in the understanding of cultural heritage.