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Somayeh Noghani,
Volume 4, Issue 3 (12-2021)
Volume 4, Issue 3 (12-2021)
Abstract
Macromolecular and hydrophilic networks, with the ability to retain solvents within their hydrophilic macromolecular structures, have been utilized for an extended period in as poultice. These networks are mainly cellulose-based pastes, and the most significant issue associated with their use is adhesion and the potential for residues to remain on the surface of artifacts, and its side effects. Over the past decades, and based on new technologies, novel gels with features such as reversibility, complete removability from surfaces, ease of preparation, and the compatibility with solvent-based nanofluids have been introduced to the field of restoration. Among them, modified cellulose gels, reversible organogels and nanomagnetic sponge gels can be mentioned. This article is a review of the introduction of the structure and applications of new gels in the field of cleaning processes within the restoration of historical cultural objects.
Parisa Mohammadi , Mina Noorollah,
Volume 4, Issue 4 (2-2022)
Volume 4, Issue 4 (2-2022)
Abstract
Microbial colonization of cultural heritage objects is inevitable. Microorganisms cause physical, chemical, and aesthetic alteration in valuable works of art, leading to the loss of both financial and cultural value. To prevent and control microbial colonization and their growths, physical, chemical, and biological methods are used. However, physicochemical methods are often ineffective on treated works of art, and can be dangerous for people involved in the conservation process. Due to inherent characteristics, chemical compounds and biocides, they are hazardous for humans, animals, and the environment. Given the significant weaknesses of these conventional methods, new approaches are continuously being developed to reduce the negative impact of deteriogenic microorganisms. These new approaches are environmentally friendly, safe, low-cost and low-risk. However, more research is needed to monitor the safety and effectiveness of these approaches. The lack of simple, reliable and standard measurements remains a limitation in the selection of
effective treatments. Field experiments are necessary and useful for evaluating the effectiveness of these methods: however, their design and implementation face several challenges. Therefore, researchers are seeking to develop methods to investigate how these new approaches work. Laboratory model systems are tools for testing the efficacy of antimicrobial compounds before field application on art works. In this study, we will first review the types of biological control methods, and then introduce the new and environmentally friendly approaches, that have been developed in this field. Finally, we will discuss methods of testing the effectiveness of new strategies using laboratory model systems.
effective treatments. Field experiments are necessary and useful for evaluating the effectiveness of these methods: however, their design and implementation face several challenges. Therefore, researchers are seeking to develop methods to investigate how these new approaches work. Laboratory model systems are tools for testing the efficacy of antimicrobial compounds before field application on art works. In this study, we will first review the types of biological control methods, and then introduce the new and environmentally friendly approaches, that have been developed in this field. Finally, we will discuss methods of testing the effectiveness of new strategies using laboratory model systems.
Shaiba Khadir,
Volume 6, Issue 1 (6-2023)
Volume 6, Issue 1 (6-2023)
Abstract
Identifying the material and the main substrate of a cultural artifact, as well as the surface sediments in the process of conservation and restoration plays a significant role in determining the appropriate methods and ensuring the longevity of the artifact. To achieve this, the use of laboratory-based, instrumental, and microscopic techniques is indispensable. While some experts might be able to recognize the nature of the coin at a glance, this is not always possible, especially when it covered with substantial deposits or when its authenticity is in question. Therefore, in addition to experimental knowledge and comparative studies, precise laboratory methods are necessary. In the research has been carried out in the workshop of conservation and restoration of metal works of the Research Center for Conservation of Cultural Relies, we encountered instances familiar to many dealing with coin collections. For example, coins with a silver appearance that have become darkened and tarnished due to deposits caused by the surrounding environment and wear and tear, might initially seem to be silver. However, further investigation often reveals that they are of different alloy or have a Silver coating, or they have been silver-copper coins buried in soil, where deposits and extensive copper corrosion products sometimes make the identification more challenging. Various methods are employed in the study of coins to clarify the economic, social, and political conditions at the time of their minting. Techniques such as PIXE (Particle-Induced X-ray Emission) and XRF (X-ray fluorescence) have attracted more attention from researchers for reasons such as accuracy and non-destructiveness nature. However, it should be considered that in order to obtain a clear and accurate results, the surface of the coin needs to be clean and free of any kind of contamination before conducting these analyses. This underscores the importance of adhering to proper restoration processes for these historical artifacts. Before commencing cleaning, the conservator must consider factors such as the identification of the coin, its surrounding environment or burial and storage conditions, structural aspects, precision in coin minting, and its pathology. Assessment of these factors, not only helps numismatic studies and determining the authenticity of coin, but also assists in selecting the optimal method of cleaning. It should be kept in mind that the inappropriate selection of chemicals or the use of unsuitable mechanical tools can cause serious damage to the artifact's surface and disturb subsequent studies. this research introduces various methods used in the field of study of coins, both hammered and machine-struck, tend highlights the role and importance of laboratory studies in this context.
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