The Effect of Moisture Content on the Micro-damage Processes of Spruce Wood, Investigated by Acoustic Emission Method and Electron Microsco

Spruce was investigated by acoustic emission during tensile tests. The examined moisturecontents were 0%, 12%, and 26%. The fracture surfaces were photographed using electronmicroscopy.The experiments showed, that micro-damage processes start near the ultimate strength,regardless of moisture content...

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Bibliographic Details
Main Author: KÁNNÁR, Antal
Format: Article
Language:English
Published: Sciendo 2006-01-01
Series:Acta Silvatica & Lignaria Hungarica
Subjects:
Online Access:http://aslh.nyme.hu/fileadmin/dokumentumok/fmk/acta_silvatica/cikkek/Vol02-2006/kannar.pdf
Description
Summary:Spruce was investigated by acoustic emission during tensile tests. The examined moisturecontents were 0%, 12%, and 26%. The fracture surfaces were photographed using electronmicroscopy.The experiments showed, that micro-damage processes start near the ultimate strength,regardless of moisture content. This indicates the brittle behaviour of wood.The analysis of detected acoustic events at different moisture contents indicated that the number andproperties of events supposedly resulting from breaking do not change with increasing moisturecontent. Decrease occurs in the total number of events at higher moisture contents as a consequence ofthe increasing acoustic attenuation of wood and the elimination of friction type events. Electronmicroscopic analysis of fracture surfaces supports the result of acoustic emission experiments. Thefracture surfaces showed characteristic brittle tension and shear across the cell wall of different cells.Based on both investigations we can say that wood has brittle fracture characteristics in the 0-30%moisture content range.
ISSN:1786-691X
1787-064X