Study on the conservation state of wooden historical structures by means of acoustic attenuation and vacuum microbalance

Acoustic emission is a well-known noninvasive methodology for the study of defects in materials but still rarely applied in the field of cultural heritage diagnostic. How alteration products and degradation processes affect the acoustic emission signal still is an open issue. The proposed study conc...

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Veröffentlicht in:	Wood science and technology 2020, Vol.54 (1), p.203-226
Hauptverfasser:	Bertolin, C., de Ferri, L., Grottesi, G., Strojecki, M.
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Sprache:	eng
Schlagworte:	Acoustic attenuation Acoustic emission Acoustics Biomedical and Life Sciences Ceramics Composites Conservation Crystal defects Crystallization Cultural heritage Cultural resources Diagnostic systems Emission analysis Glass Historical structures Life Sciences Machines Manufacturing Microbalances Moisture content Natural Materials Original Processes Salts Signal processing Typology Vacuum Warehouses Water content Wood Science & Technology Wooden structures
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creator	Bertolin, C. de Ferri, L. Grottesi, G. Strojecki, M.
description	Acoustic emission is a well-known noninvasive methodology for the study of defects in materials but still rarely applied in the field of cultural heritage diagnostic. How alteration products and degradation processes affect the acoustic emission signal still is an open issue. The proposed study concerns the utilization of such techniques to investigate the relations existing between the moisture content and the typology and amount of crystallized salts with the acoustic emission features. This work focuses on spruce wood logs belonging to an historical warehouse in Trondheim, Norway, since no strictly scientific studies exist on the conservation conditions of these big wooden structures. The methodology, also involving the moisture content measurement of structures and the samplings of portions analyzed through vacuum microbalance, allowed identifying a clear relationship between the amount of water in logs as a function of their distance from the ground and variations in the amplitude of the acoustic emission signals.
doi_str_mv	10.1007/s00226-019-01150-8
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subjects	Acoustic attenuation Acoustic emission Acoustics Biomedical and Life Sciences Ceramics Composites Conservation Crystal defects Crystallization Cultural heritage Cultural resources Diagnostic systems Emission analysis Glass Historical structures Life Sciences Machines Manufacturing Microbalances Moisture content Natural Materials Original Processes Salts Signal processing Typology Vacuum Warehouses Water content Wood Science & Technology Wooden structures
title	Study on the conservation state of wooden historical structures by means of acoustic attenuation and vacuum microbalance
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