Determination of Elastic Parameters of Thin Layers Used in Paintings by Air-Coupled Ultrasound Transmission Measurements Under Varying Incidence

Victor Takahashi;Michaël Lematre;Jérôme Fortineau;Marc Lethiecq
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Abstract

Paintings are intricate structures made up of multiple layers of materials that possess different properties and thicknesses. Due to their fragility, they can be damaged by exposure to various environmental factors such very large amplitude vibrations, as well as temperature and humidity variations. Restorers use various techniques such as raking light, x-rays, infrared, and UV to gather information about the condition of the artwork. Unlike these methods, ultrasonic techniques use elastic waves and can thus provide information about the mechanical properties of the materials and their interfaces. The goal of this work is twofold. First, it consists in numerically analyzing the sensitivity of elastic parameters of painting layers through their influence on the acoustic transmission coefficient and dispersion curves. Then, an experimental device is set up to confirm some of these results by the determination of the values of the elastic parameters of the constituent layers of paintings. To this aim, we have developed an original association of numerical and experimental methods for characterization and determination of the layer elastic parameters of some materials used in paintings. A matrix stiffness model associated to a genetic algorithm are used for the numerical study and optimization process between the theoretical transmission coefficient and the experimental one. Then, focused Air-Coupled Transducers (ACTs) in conjunction with a rotary motor are used to perform measurements of transmitted signal amplitude on several components used in paintings under various angles of incidence. Our results concerning the determination of elastic parameters values on various materials including plexiglass (PMMA), acrylic paint, varnish, gesso and wood, taken as single plates, and bi-layered structures, are strongly supported by theoretical results obtained using the matrix stiffness model.
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在不同入射率下通过空气耦合超声波透射测量确定绘画所用薄层的弹性参数
绘画是由多层材料组成的复杂结构,这些材料具有不同的特性和厚度。由于其脆弱性,暴露在各种环境因素(如大振幅振动以及温度和湿度变化)下可能会对其造成损坏。修复人员使用各种技术,如强光、X 射线、红外线和紫外线来收集有关艺术品状况的信息。与这些方法不同的是,超声波技术使用的是弹性波,因此可以提供有关材料及其界面机械特性的信息。这项工作有两个目标。首先,通过对声波传输系数和频散曲线的影响,对绘画层弹性参数的敏感性进行数值分析。然后,我们建立了一个实验装置,通过确定绘画组成层的弹性参数值来证实其中的一些结果。为此,我们开发了一种独创的数值与实验相结合的方法,用于描述和确定绘画中使用的某些材料的层弹性参数。在理论透射系数和实验透射系数的数值研究和优化过程中,使用了与遗传算法相关的矩阵刚度模型。然后,将聚焦空气耦合传感器(ACT)与旋转电机结合使用,在不同的入射角度下对绘画中使用的几个组件进行传输信号振幅的测量。我们对各种材料(包括有机玻璃(PMMA)、丙烯酸涂料、清漆、石膏粉和木材)的弹性参数值进行了测定,这些材料既有单层结构,也有双层结构,这些结果都得到了使用矩阵刚度模型得出的理论结果的有力支持。
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