Nondestructive Testing for Archaeology and Cultural Heritage


Book Description

This textbook provides a general introduction to the most important nondestructive testing (NDT) exploration methods for cultural heritage sites. It and highlights the application of NDT exploration methods to archaeology and monumental property. The ability to gauge the extent of an archaeological deposit or the state of preservation of artefacts without resorting to destructive actions is extremely useful in identifying unknown or potential artefacts, and can help to understand and approach a given site in a more targeted manner, both for excavation and restoration operations. This book describes the main physical principles, campaign procedures, and processing and interpretation techniques of NDT, while also introducing a new technique and algorithm for data acquisition and processing. A large section of the book is devoted to actual on-site applications, and focuses on significant historical-archaeological sites in Italy and Turkey. The book offers an essential reference guide for students and scientists in archaeology, geophysics, architecture, and the engineering disciplines, as well as specialists.




Physical Techniques in the Study of Art, Archaeology and Cultural Heritage


Book Description

The first of its kind, this series is devoted to the use of physical principles in the study and scientific conservation of objects with cultural heritage significance. It begins with a review of the modern museum, which discusses new techniques employed in the conservation of museum artifacts such as X-ray tomography and other techniques used to study Egyptian mummies, bones and mineralization of bones in the archaeological context, and the degradation of parchment. All of these topics and techniques are essential for the preservation of our history. This includes finding ways to preserve parchment documents and letters, which much of our written heritage is documented on, so that it can be used and understood for generations to come. This book is a must have for any museum as well as any university that teaches or employs the techniques discussed. - Written in a style that is readily understandable by conservation scientists, archaeologists, museum curators, and students - Provides an introduction to the advanced fields of synchrotron radiation science, neutron science, and computed tomography - Outstanding review of the use of modern technology to study museum and archaeological artifacts - Offers solutions through advanced scientific techniques to a wide range of problems facing museum staff




Cultural Heritage Conservation and Environmental Impact Assessment by Non-Destructive Testing and Micro-Analysis


Book Description

This book mostly contains contributions by the invited lecturers at the 7th International Conference on Non-Destructive Testing and Micro-Analysis for the Diagnostics and Conservation of the Cultural and Environmental Heritage. The contributors have all been chosen for their individual reputations and the quality of their research, but also because they represent a field deemed highly important. Hence, this book give balanced coverage of the areas that are most relevant in non-destructive testing and micro-analysis in the realm of cultural heritage. The analysis methods provide the clinical composition of cultural artifacts to elucidate their provenance, the rate of alteration as a result of exposure to the environment and the effectiveness of conservation and restoration strategies. The techniques are partially or fully non-destructive, are portable, or allow study of different parts of a heterogeneous work of art.




Nondestructive Techniques for the Assessment and Preservation of Historic Structures


Book Description

New technologies play an increasingly important role in the analysis, monitoring, restoration, and preservation of historic structures. These technological systems continue to get more advanced and complex, for example: 3D digital construction and documentation programming, 3D imaging data (including laser scanning and photogrammetry), multispectral and thermographic imaging, geophysical data, etc. This book will present the latest nondestructive technologies used in the characterization, preservation, and structural health monitoring of historic buildings. It will include numerous case studies, as well as theoretical explanations about each of the methods and technologies used in each.




Nondestructive Evaluation and Monitoring Technologies, Documentation, Diagnosis and Preservation of Cultural Heritage


Book Description

This book highlights the benefits of Non-Destructive Testing (NDT) methods and their applications on several cultural heritage sites including the Holy Selphuchre Monitoring System in Jerusalem. This book demonstrates Nondestructive sensing technologies and inspection modules as main tools for documentation, diagnosis, characterization, preservation planning, monitoring and quality of restoration, assessment and evaluation of material and preservation work.




Diagnosis of Heritage Buildings by Non-Destructive Techniques


Book Description

Besides their notable historical and cultural significance, heritage buildings crucially contribute to the economy of those countries that rely heavily on the tourism industry. Investigation and monitoring of the origins of deterioration and damage are therefore key to the preservation of architectural heritage. Diagnosis of Heritage Buildings by Non-Destructive Techniques offers an up-to-date overview of state-of-the-art knowledge by collating specialized studies written by an international group of experts in the field, while also examining the value of these non-intrusive methods through a number of real-life case studies which prove NDT techniques' global relevance. The volume is an invaluable reference resource for students, researchers, and practitioners alike. - Helps readers to easily identify the latest advances in non-destructive testing by subdividing the content into sections specific to each assessment approach - Explores the integration of different NDT methodologies, facilitating the interoperability of traditional and advanced technologies - Presents case studies based on real built heritage to show how to correctly implement the measurement techniques described, and to interpret the results




Nanotechnologies and Nanomaterials for Diagnostic, Conservation and Restoration of Cultural Heritage


Book Description

Nanotechnologies and Nanomaterials for Diagnostic, Conservation and Restoration of Cultural Heritage explores how advanced nanoscale techniques can help preserve artworks. The book covers lab-scale available techniques as well as advanced methods from neutron sources and X-ray spectroscopy. Other sections highlight a variety of nanomaterials with potential uses in treatments for restoration and conservation, with conservation, consolidation and long-term protection protocols analyzed in each case. The final chapter presents case studies, demonstrates how nanoscale techniques are used to conserve art, and shows what happens when misinterpretation of data sources leads to misdiagnosis. The book is intended for scientists from academic and professional conservators, restorers who are involved in the conservation of artistic and historical artifacts, and those who want to learn how nanotechnology can increase the efficiency of conservation and protection techniques. - Cogently explains how nanotechnology is used in the preservation, protection and restoration of artworks - Explores the best nanomaterials for a variety of situations - Shows how nanomaterials can be used in restoration, for cleaning and in conservation treatments - Includes guidelines to prevent the misinterpretation of diagnostic data to help avoid misdiagnosis




Failure Analysis


Book Description




Geomaterials in Cultural Heritage


Book Description

Papers from a session of the 32nd International Geological Congress.




Electromagnetic Methods in Geophysics


Book Description

Discover the utility of four popular electromagnetic geophysical techniques In GeoRadar, FDEM, TDEM, and AEM Methods, accomplished researchers Fabio Giannino and Giovanni Leucci deliver an in-depth exploration of the theory and application of four different electromagnetic geophysical techniques: ground penetrating radar, the frequency domain electromagnetic method, the time domain electromagnetic method, and the airborne electromagnetic method. The authors offer a full description of each technique as they relate to the economics, planning, and logistics of deploying each of them on-site. The book also discusses the potential output of each method and how it can be combined with other sources of below- and above-ground information to create a digitized common point cloud containing a wide variety of data. Giannino and Leucci rely on 25 years of professional experience in over 40 countries around the world to provide readers with a fulsome description of the optimal use of GPR, FDEM, TDEM, and AEM, demonstrating their flexibility and applicability to a wide variety of use cases. Readers will also benefit from the inclusion of: A thorough introduction to electromagnetic theory, including the operative principles and theory of ground penetrating radar (GPR) and the frequency domain electromagnetic method (FDEM) An exploration of hardware architecture and surveying, including GPR, FDEM, time domain electromagnetic method (TDEM), and airborne electromagnetic (AEM) surveying A collection of case studies, including a multiple-geophysical archaeological GPR survey in Turkey and a UXO search in a building area in Italy using FDEM /li> Discussions of planning and mobilizing a campaign, the shipment and clearance of survey equipment, and managing the operative aspects of field activity Perfect for forensic and archaeological geophysicists, GeoRadar, FDEM, TDEM, and AEM Methods will also earn a place in the libraries of anyone seeking a one-stop reference for the planning and deployment of GDR, FDEM, TDEM, and AEM surveying techniques.