壁画支撑体用环氧树脂的老化特性与机理研究OACHSSCD
Study on the aging characteristics and mechanism of epoxy resin for the mural support layers
为进一步研究环氧树脂的老化特性与机理,阐明环氧树脂老化过程对壁画本体的破坏作用,本研究采用质量、体积变化率,力学性能测试,扫描电子显微镜观察,傅里叶变换红外光谱分析等方法,探究环氧树脂样品在老化过程中物理性质与化学结构变化情况,研究结果表明:在温、湿度变化主导的老化条件下,环氧树脂会出现黄化度增加、光泽度及致密度下降等现象,链段上的环氧基、羟基、醚键、苯环等特征峰强则会随老化时间的增加显著减弱或消失,以上特性可作为环氧树脂老化的量化指标;老化初期,环氧树脂样品因基体物理吸湿溶胀、内部应力不均产生微裂隙,随着老化进程的推进,微裂隙在水分子的作用下持续增多、加深、扩大,直至出现大面积孔洞,使材料机械强度与粘结强度明显降低,温度作用则会引起环氧树脂的自由基链式反应,破坏其链式结构,材料内聚力与耐候性随之降低;环氧树脂主要通过性能下降或失效所造成的对壁画粘结强度与支撑强度的减弱以及地仗-环氧树脂复合材料界面应力作用对壁画本体产生破坏,最终引发壁画裂隙、空鼓、分离脱落、脱粘移位等病害.
Epoxy resin is a widely utilized replacement material for the mural support layers,and its aging degradation can significantly affect both the stability and aesthetics of murals.To further investigate the aging characteristics and mechanisms of epoxy resin,and to clarify the detrimental effects of its aging process on murals,this study employed E44 bisphenol A epoxy resin along with mural plaster materials as laboratory aging samples.Additionally,natural aging samples were selected from the murals of Fengguo Temple and the tomb of Shi Shewu. Comprehensive analyses,including mass and volume measurement,mechanical performance evaluation,scanning electron microscopy(SEM),and Fourier transform infrared spectrometry(FTIR),were conducted to examine changes in the physical properties and chemical structures of the samples during aging.The findings indicate that under conditions primarily influenced by temperature and humidity,epoxy resin exhibited increased yellowing,reduced gloss,and decreased density.Furthermore,characteristic peaks associated with functional groups such as epoxide groups,hydroxyl groups,ether bonds,and benzene rings within the polymer chain were observed to weaken significantly or disappear over time.These observable changes may serve as quantitative indicators for assessing epoxy resin aging. In the initial stages of aging,moisture absorption led to swelling in the epoxy resin sample due to interactions with its substrate.This resulted in internal stress imbalances that generated micro-cracks.As aging progressed,these micro-cracks continued to proliferate—deepening and expanding under the influence of water molecule—ultimately resulting in extensive voids that markedly reduced both the mechanical strength and adhesion capacity of the material.Thermal exposure induced free-radical chain reactions within the epoxy resin,compromising their molecular structure and consequently affecting internal cohesion alongside weather resistance.Thus it can be concluded that epoxy resin predominantly contributed to a decline or failure in adhesive strength over time. Epoxy resin primarily contributes to the deterioration of murals by compromising adhesion and support strength,which may result in weakening or loss of bond strength.Additionally,it inflicts damage on the mural itself due to the stress exerted at the interface between the plaster layer and epoxy resin composite materials.Consequently,this process leads to issues such as cracking,detachment,deep loss,and eventual loss of the mural.
李倩;刘成;周抒凝
西北大学文化遗产学院,陕西西安 710127||陕西历史博物馆,陕西西安 710061||馆藏壁画保护修复与材料科学研究国家文物局重点科研基地(陕西历史博物馆,西北工业大学),陕西西安 710061西北大学文化遗产学院,陕西西安 710127西安碑林博物馆,陕西西安 710001
社会科学
壁画支撑体环氧树脂老化特性病害机理
Mural support layerEpoxy resinAging characteristicDeterioration mechanism
《文物保护与考古科学》 2026 (1)
1-8,8
评论