8 Couto, A.L., R.F. Trugilho, T.A. Neves, T.P. Protásio, and V.A. Sá. 2013. Modeling of basic density of wood from Eucalyptus grandis and Eucalyptus urophylla using nondestructive methods. Cerne 9(1):27–34. Eckstein, D.U. Saß 1994. Bohrwidersfandsmessungen an Laub- böumen und ihre holzanatomische Interpretation. HoIz ols Roh- und Werkstoff (52):279–286. Fraedrich, B.R. 1999. Compartmentalization of decay in trees, TR-18, Technical Report, Bartlett Tree Research Laboratories, Charlotte, North Carolina, U.S. Freitas, T. 2012. Caracterização tecnológica da madeira de Platanus sp. Monografia, Departamento de Ciências Florestais e da Madeira, Universidade do Espirito Santo, España. Haygreen, J.G., and J.L. Bowyer. 1989. Forest Products and Wood Science – An Introduction. Iowa State University Press, Ames, Iowa, U.S. Instituto de Pesquisas Tecnológicas, IPT. 2016. Informações sobre Madeiras. Accessed 04 November 2016. Jenkins, E. 2011. Inspecting poles in the 21st century. Utility Products 1:24–25 Johnstone, D.M., P.K. Ades, G.M. Moore, and I.W. Smith. 2007. Predicting wood decay in eucalypts using an expert system and the IML-Resistograph drill. Arboriculture & Urban For- estry 33(2):76–82. Johnstone, D., G. Moore, M. Tausz, and M. Nicolas. 2011. The measurement of wood decay in landscape trees. Arboriculture & Urban Forestry 36(3):121–127. Kubus, M. 2009. The evaluation of using resistograph when specifying the health condition of a monumental tree. Notuale Botanicae Horti Agrobotanici Cluj-Napoca 37(1):157–164. Lima, I.L., E.L. Longui, B. Zanon, S.M.B. Florsheim, J.N. Garcia, and G.B. Bortoleto Jr. 2015. Wood anatomy and properties of 24-year-old Liquidambar styraciflua in three diameter class. Scientia Forestalis 43(107):733–744. Martínez, R. 2016. Métodos no destructivos de estimación de la densidad de la madera. Thesis, 210p. Universidad de Santiago de Compostela, España. Martínez, R. 2015. NDT to identify biological damage in wood. pp. 453–461. In: International nondestructive testing and eval- uation of wood symposium, 19 Anais. Brasil, Rio de Janeiro. Matheny, N.P., J.R. Clark, and D. Attewell. 1999. Assessment of fracture moment and fracture angle in 25 tree species in the United States using fractometer. Journal of Arboriculture 25(1):18–23. Means, J., K. Cromack Jr., and P.C. Macmillan. 1985. Comparison of decomposition models using wood density of Douglas-fir logs. Canadian Journal of Forest Research 15:1092–1098. Nutto, L., and T. Biechele. 2015. Drilling resistance measurement and the effect of shaft friction—Using feed force information for improving decay identification on hard tropical wood. pp. 156–160. In: International nondestructive testing and evalua- tion of wood symposium, 19 Anais. Brasil, Rio de Janeiro. Reinprecht, L., and P. Supina. 2015. Comparative evaluation of inspection techniques for impregnated wood utility poles— Ultrasonic, drill-resistive, and CT-scanning assessments. European Journal of Wood and Wood Products 73(6):741– 751. ©2019 International Society of Arboriculture Reis et al: Profiles of a Non-Calibrated Resistance Drill Rinn, F. 1989. A new method for direct measuring of wood density of broadleaf trees and conifers. Dendrochronologia 7:159–168. Rinn, F. 1996. Resistographic visualization of tree-ring density variations. Radiocarbon pp. 871–878. Rinn, F. 2012. Basics of micro Resistance-Drilling for Timber Inspection. Holztechnologie 53:24–29. Rinn, F. 2014. Typical Trends in Resistance Drilling Profiles of Trees. Arborist News. Rinn, F. 2015. Key to evaluating drilling resistance profiles. Western Arborist Fall-2015:14–19. Rinn, F. 2016. Intact-decay transitions in profiles of density- calibratable resistance drilling devices using long thin needles. Arboricultural Journal. 38(4):204–217. Schubert, H.-M. 1989. Drilling for rot: New method of testing for tree damage. The German Tribune 29:12. Shigo, A.L., and H. Marx. 1977. Compartmentalization of decay in trees. (CODIT). Inf. Bull. U.S. Department of Agriculture 405:73. Shortle, W.C. 1979. Mechanisms of Compartmentalization of decay in living trees. Symposium on Wood Decay 69(10):1147–1151. Tannert, T., R.W. Anthony, B. Kasal, M. Kloiber, M. Piazza, M. Riggio, and F. Rinn et al. 2013. In situ assessment of structural timber using semi-destructive techniques. Materials and Structures Wang, X., and R.B. Allison. 2008. Decay detection in red oak trees using a combination of visual inspection, acoustic test- ing, and resistance microdrilling. Arboriculture & Urban For- estry 34(1):1–4. Wilcox, W.W. 1978. Review of literature on the effects of early stages of decay on wood strength. Wood and Fiber pp. 252–257. Mariana Nagle dos Reis Master Student School of Agricultural Engineering University of Campinas Campinas, São Paulo, Brasil Raquel Gonçalves (corresponding author) Professor, School of Agricultural Engineering Head of Nondestructive Testing Research Group University of Campinas Avenida Cândido Rondon 501 Barão Geraldo – 13073-875 Campinas, São Paulo, Brasil. phone: 55-19-35211034 email: raquel@agr.unicamp.br Gustavo Henrique Lopes Garcia Master Student School of Agricultural Engineering University of Campinas Campinas, São Paulo, Brasil Leandro Manes Undergraduate Student School of Agricultural Engineering University of Campinas Campinas, São Paulo, Brasil
January 2019
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