Franceschin Giulia, Zanini Roberta, Iori Gianluca, Longo Elena, Divitini Giorgio, Tromba Giuliana, Traviglia Arianna
Center for Cultural Heritage Technologies (CCHT), Istituto Italiano di Tecnologia, Epsilon building, via Torino 155, Venice, 30170, Italy.
SESAME - Synchrotron-light for Experimental Science and Applications in the Middle East, Allan 19252, Jordan.
Phys Chem Chem Phys. 2024 Mar 20;26(12):9697-9707. doi: 10.1039/d3cp05221d.
In this research, a comprehensive multi-technique analysis, including synchrotron-based X-ray micro-computed tomography, is used to visualize the microstructure of alteration in a very particular Roman glass fragment, in which millennia of corrosion history have not significantly impacted the integrity of the fragment itself. This exceptionally rare occurrence has allowed for the maximization of meaningful data acquisition, by examining the alteration structures from the macro to the nanoscale. This study elucidates the intricate mechanisms underlying glass corrosion when in contact with soil, providing quantitative data and phase correlations in the alteration structures. These findings validate and refine existing predictive corrosion models.
在这项研究中,采用了包括基于同步加速器的X射线显微计算机断层扫描在内的综合多技术分析方法,以可视化一个非常特殊的罗马玻璃碎片中的蚀变微观结构,该碎片历经数千年的腐蚀历史,但其自身的完整性并未受到显著影响。这种极为罕见的情况使得通过从宏观到纳米尺度研究蚀变结构,能够最大限度地获取有意义的数据。本研究阐明了玻璃与土壤接触时腐蚀的复杂机制,提供了蚀变结构中的定量数据和相相关性。这些发现验证并完善了现有的腐蚀预测模型。
