Free access
Issue
Ann. For. Sci.
Volume 61, Number 2, March 2004
Page(s) 157 - 162
DOI http://dx.doi.org/10.1051/forest:2004007
References of Ann. For. Sci. 61 157-162
  1. Bauer C., Kilbertus G., Bucur V., Technique ultrasonore de caractérisation du degré d'altération des bois de hêtre et de pin soumis à l'attaque de différents champignons, Holzforschung 45 (1991) 41-46.
  2. Biagi E., Gatteschi G., Masotti L., Zanini A., Tomografia ad ultrasuoni per la caratterizzazione difettologica del legno, Alta frequenza - Rivista di elettronica 6 (1994) 48-57.
  3. Bucur V., Acoustics of Wood, CRC Press Inc., 1995.
  4. Davis J.R., Lerdin A., Wells P., Ilic J., X-ray microtomography of wood, J. Inst. Wood Sci. 12 (1991) 259-261.
  5. Dines K., Litle J., Computerized Geophysical Tomography, Proc. IEEE, 67, 1979, pp. 1065-1073.
  6. Divos F., Stress wave based tomography for tree evaluation, in: Proc. of 12th Int. Symposium on NDT of Wood, Sopron 13-15 Sept. 2000, p. 469.
  7. Habermehl A., Ridder H. W., Seidl P., Computerized Tomographic Systems as tools for diagnosing urban tree health, Proc. Int. Symp. on Urban Tree Health, Acta Hortic. 496 (1999) 261-268.
  8. Link R., Nuding W., Sauerwein K., Wiacker H., Habermehl A., Ridder H.W., Mobile Computerized Tomographic Systems: MCT 3 and MCT 5, Giornale delle prove non distruttive, 2 (1987) 25-27.
  9. Martinis R., Analisi e sviluppo di tecniche non invasive per la valutazione di carie in alberi in piedi, Thèse de Doctorat, Dipartimento di Biotecnologie Agrarie, Facoltà di Agraria, Firenze, 2002.
  10. Pearce R.B., Fisher B.J., Carpenter T.A., Hall L.D., Water distribution in fungal lesions in the wood of sycamore (Acer pseudoplatanus), determined gravimetrically and using nuclear magnetic resonance imaging, New Phytol. 135 (1997) 675-688 [CrossRef].
  11. Rayner A.D.M., Boddy L., Fungal decomposition of wood, Its biology and ecology, John Wiley & Sons Ltd., 1988.
  12. Ross R.R., Using sound to evaluate standing timber, Int. For. Rev. 1 (1999) 43-44.
  13. Rust S., Göcke L., PICUS Sonic Tomograph - a new device for nondestructive timber testing, in: International Symposium on Plant Health in Urban Horticulture, Braunschweig, Germany, 2000, p. 300.
  14. Schad K.C., Kretschmann D.E., McDonald K.A., Ross J.R., Green D.W., Stress Wave Techniques for Determining Quality of Dimensional Lumber From Switch Ties, FPL-RN-0265 USDA, Forest Products Laboratory, 1995.
  15. Tomikawa Y., Iwase Y., Arita K., Yamada H., Nondestructive inspection of wooden poles using ultrasonic computed tomography, IEEE Transaction on UFFC, 33 (1990) 354-358.
  16. Tweeton D.R., A Tomographic Computer Program With Constraints To Improve Reconstructions for Monitoring In Situ Mining Leachate, BuMines RI 9411, 1988.
  17. Wang X., Ross R.J., McClellan M., Barbour R.J., Erickson J.R., Forsman J.W., McGinnis G.D., Strength and stiffness assessment of standing trees using a nondestructive stress wave technique, USDA, Forest Service; FPL - RP - 585, 2000.
  18. Wilcox W.W., Detection of early stages of wood decay with ultrasonic pulse velocity, For. Prod. J. 38 (1988) 68-73.
  19. Wielandt E., On the Validity of Ray Approximation for Interpreting Delay Times, in: Wielandt E., Seismic Tomography, G. Nolet, Reidel, 1987, pp. 85-98.