通过全息干涉测量法和微波反射测量法检测布兰卡奇礼拜堂壁画的缺陷并确定其特征

IF 3.5 2区 综合性期刊 0 ARCHAEOLOGY Journal of Cultural Heritage Pub Date : 2024-06-10 DOI:10.1016/j.culher.2024.05.013
Alessandra Rocco , Moira Bertasa , Antonina Chaban , Valentina Di Sarno , Raffaella Fontana , Emanuela Grifoni , Anna Impallaria , Jana Striova , Sara Penoni , Cristiano Riminesi
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引用次数: 0

摘要

本文评估了 DHSPI、SIRT 和 MWR 技术的协同组合在壁画诊断方面的改进效果。这些用于原位诊断的便携式非破坏性创新技术在实验室中进行了测试,测试对象是模拟壁画缺陷(如脱落、空洞和裂缝)真实情况的模型,以及意大利佛罗伦萨圣玛丽亚教堂布兰卡奇礼拜堂中马索里诺、马萨乔和菲利皮诺-里皮(1422 年至 1475 年)绘制的壁画。这项研究活动是布兰卡奇礼拜堂诊断和监测项目的一部分,对保护状况的评估是规划后续修复工作的必要前提。通常情况下,修复人员通过视觉和触觉检查对壁画的保存状况进行初步评估,而不使用任何特殊的科学仪器。裂缝、空洞、材料缺乏、脱落、失衡和(非)结构元素的变形都会在状况报告中报告,以记录特定时间点的保护状况。其中,剥离是通过敲击试验来确认的,但这是一种自由裁量和高度主观的方法。因此,人们强烈要求开发一种便携式、非破坏性的方法,用客观数据完善这一初步调查。在此,我们介绍了结合使用 MWR(可用于确定墙体隐蔽缺陷的尺寸特征)和 DHSPI-SIRT 确定热刺激引起的变形程度的结果,为修复人员进行的初步调查提供了客观的确认,在初步调查中,剥离物被表示为 "稳定"、"不太稳定 "和 "不稳定",即接近脱落。事实证明,在现场综合使用这些技术,并辅以对临时制作的模型进行实验室研究,可以对损坏风险进行定量评估,从而指导相应的修复策略。
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Detection and characterization of defects in the Brancacci Chapel wall paintings via holographic interferometry and microwave reflectometry

This paper evaluates the improvements in wall paintings diagnostic achievable by the synergistic combination of DHSPI, SIRT and MWR techniques. These innovative portable and non-destructive techniques for in-situ diagnostic were tested in laboratory on mock-ups mimicking the real conditions of wall painting defects (such as detachments, cavities and cracks), and on the frescoes painted by Masolino, Masaccio and Filippino Lippi (between 1422 and 1475) in the Brancacci Chapel in the church of Santa Maria del Carmine in Florence, Italy. This research activity was part of the Brancacci Chapel diagnostic and monitoring project, where the assessment of the state of conservation is a mandatory prerequisite for planning the subsequent restoration work. In common practice, restorers make the preliminary evaluation on the state of conservation of the wall paintings by visual and tactile inspection, without the use of any special scientific instrumentation. Cracks, cavities, lack of material, detachments, out-of-plumb and deformation of (non-)structural elements are reported in a condition report to document the state of conservation at a given point in time. In particular, the detachments are recognized by the tap test, but this is a discretionary and highly subjective method. Thus, there is a strong demand for the development of a portable and non-destructive approach that refines this preliminary survey with objective data. Here, we present the results produced by the combination of MWR (useful for the dimensional characterization of hidden defects in the wall) and DHSPI-SIRT to identify the extent of deformations induced by thermal stimulus, providing an objective confirmation of the preliminary investigation performed by restorers, in which the detachments were indicated as “stable”, “not very stable” and “unstable”, i.e., close to falling. The integrated use of these techniques in situ, supported by a laboratory study on ad-hoc prepared mock-ups, proved to be suitable for a quantitative evaluation of damage risk to guide restoration strategy accordingly.

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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.
期刊最新文献
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