The knowledge of moisture content (MC) is essential for determining the state of preservation of various types of hand-work: from building materials, such as bricks and concrete, to objects of artistic value, in particular frescoes and mural paintings. In all the above., moisture is the primary source of damages, as it affects the durability of porous materials. Dielectric properties of porous materials are strongly affected by the presence of water, suggesting dielectric spectroscopy as a suitable non-invasive diagnostic technique. The development of a quantitative relationship between MC and permittivity requires to investigate the dynamics of water mass transfer in porous media, and to determine its effect oil the dielectric properties. In this paper a coupled mass transfer/dielectric problem is introduced and solved numerically, based oil a finite element model. Results are compared to experimental dielectric measurement performed on plaster samples by the open coaxial method. The application of the dielectric technique to frescoes monitoring is proposed, showing the results obtained in an on-site study.
Study of water mass transfer dynamics in frescoes by dielectric spectroscopy
R Olmi;C Riminesi
2008
Abstract
The knowledge of moisture content (MC) is essential for determining the state of preservation of various types of hand-work: from building materials, such as bricks and concrete, to objects of artistic value, in particular frescoes and mural paintings. In all the above., moisture is the primary source of damages, as it affects the durability of porous materials. Dielectric properties of porous materials are strongly affected by the presence of water, suggesting dielectric spectroscopy as a suitable non-invasive diagnostic technique. The development of a quantitative relationship between MC and permittivity requires to investigate the dynamics of water mass transfer in porous media, and to determine its effect oil the dielectric properties. In this paper a coupled mass transfer/dielectric problem is introduced and solved numerically, based oil a finite element model. Results are compared to experimental dielectric measurement performed on plaster samples by the open coaxial method. The application of the dielectric technique to frescoes monitoring is proposed, showing the results obtained in an on-site study.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.