Paper Info
Title
Frequency equation of axisymmetric guided waves in logs
Abstract
According to the structure characteristics of logs, a log model with double layers (i.e. heartwood and sapwood) was constructed. Through the transmission characteristics of guided wave and the assumption of rigid connection at interface of heartwood and sapwood, the frequency equation of axisymmetric guided waves transmission in logs was deduced. In accordance with geometrical dispersion of guided wave in logs, Matlab was used to write the program, and the solution of frequency equation was gotten. Dispersion curve was calculated, the affect of different diameters to dispersion curve was analyzed, and the dispersion in decayed logs were compared to that in solid logs. This study provides the theoretical basis for guided wave using in internal decay detection of logs.
Year
DOI
Venue
2011
10.1109/EMEIT.2011.6023487
EMEIT
Keywords
Field
DocType
nondestructive testing,frequency equation,frequency estimation,guided wave,sapwood,heartwood,geometrical dispersion,axisymmetric guided waves,structure characteristics,dispersion,transmission characteristics,double layers,log model,log,internal decay detection
Dispersion (optics),Rotational symmetry,Fundamental frequency,MATLAB,Control theory,Nondestructive testing,Dispersion curve,Optics,Acoustics,Engineering,Guided wave testing
Conference
Volume
Issue
ISBN
4
null
978-1-61284-087-1
Citations 
PageRank 
References 
0
0.34
0
Authors
3
Name
Order
Citations
PageRank
Huimin Yang111.06
Lihai Wang294.33
Li Li37624.03