Please use this identifier to cite or link to this item: http://repositorio.ufla.br/jspui/handle/1/14020
metadata.revistascielo.dc.title: Prediction of radial and tangential shrinkages by near-infrared spectroscopy: an example for Tectona grandis from Togo and for Liquidambar styraciflua from Madagascar
metadata.revistascielo.dc.title.alternative: Predição da retratibilidade radial e tangencial por espectroscopia no infravermelho próximo: um exemplo de Tectona grandis do Togo e de Liquidambar styraciflua de Madagascar
metadata.revistascielo.dc.creator: Chaix, Gilles
Kokutse, Adzo-Dzifa
Ratovomboahangy, Bruno
Guibal, Daniel
Randrianjafy, Honoré
Rakotondraoelina, Hery
Brancheriau, Loïc
Rakotovololonalimanana, Herizo
Hein, Paulo Ricardo Gherardi
Ramananantoandro, Tahiana
metadata.revistascielo.dc.subject: Dimensional stability
Liquidambar
Teak
NIRS
Near infrared spectroscopy (NIRS)
Estabilidade dimensional
Âmbar
Teca
metadata.revistascielo.dc.publisher: Universidade Federal de Lavras (UFLA)
metadata.revistascielo.dc.date: 12-May-2015
metadata.revistascielo.dc.identifier.citation: CHAIX, G. et al. Prediction of radial and tangential shrinkages by near-infrared spectroscopy: an example for Tectona grandis from Togo and for Liquidambar styraciflua from Madagascar. CERNE, Lavras, v. 16, p. 66-73, jul. 2010. Suplemento.
metadata.revistascielo.dc.identifier: http://www.cerne.ufla.br/site/index.php/CERNE/article/view/103
metadata.revistascielo.dc.description: Dimensional stability is one of the most important properties of wood used as timber. However, it is very timeconsuming to measure this trait. Near-infrared spectroscopy is a tool adapted for prediction of many properties of wood, as chemical contents, basic density, and the time needed for the analysis is highly reduced. The issue here is to check the effectiveness of NIRS tool to build models and to predict the radial and tangential shrinkages of Teak (Togo) and Liquidambar (Madagascar) wood both from plantations. It was possible to predict the dimensional stability by means of NIR spectroscopy: For Teak, the transversal crosssection spectra yielded better NIRS-based models while for Liquidambar, the tangential surface gave the best statistics model. For the two species, the prediction models for tangential shrinkage showed similar results in term of efficiency. After independent validation or cross-validation, respectively for Teak, and for Liquidambar wood, we assume that NIRS can be used to predict radial and tangential shrinkages for screening.
metadata.revistascielo.dc.language: eng
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