Chemical characteristics of woods from several Chilean native forest species and their relationship with nanomechanical cell properties

Chemical characteristics of woods from several Chilean native forest species and their relationship with nanomechanical cell properties

The objective of this research was to study the chemical and nanomechanical characteristics of native woods grown in southern Chile region. The species analysed were Drimys winteri, Laureliopsis philippiana, Aextoxicon puctatum, Nothofagus alpina, Nothofagus dombeyi, Laurelia sempervirens, Austroced...

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Bibliographic Details
Published in:Southern forests Vol. 80; no. 4; pp. 293 - 300
Main Authors: Aguayo, María Graciela, Gacitúa, William, Valenzuela, Paulina, Mendonça, Regis Teixeira, Reyes, Pablo
Format: Journal Article
Language:English
Published: Menlo Park Taylor & Francis 02-10-2018
NISC (Pty) Ltd
Taylor & Francis Ltd
Subjects:
Carbohydrates
Cell wall properties
Cell walls
Chemical analysis
Chemical characterisation
Ductility
Glucan
Hardness
Hemicellulose
Indigenous species
Lamella
Lignin
Mechanical properties
Modulus of elasticity
Nanoindentation
Native woods
Organic chemistry
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Summary:The objective of this research was to study the chemical and nanomechanical characteristics of native woods grown in southern Chile region. The species analysed were Drimys winteri, Laureliopsis philippiana, Aextoxicon puctatum, Nothofagus alpina, Nothofagus dombeyi, Laurelia sempervirens, Austrocedrus chilensis and Fitzroya cupressoides. The samples were collected from the regions of Biobío (37° S, 73° W), Araucanía (37° S, 71° W) and Los Lagos (40° S, 73° W). Chemical analysis reported that glucan content of native woods was between 39% and 44% and lignin content between 28% and 35%. The nanomechanical properties analysed in the secondary cell wall (S2 layer) and middle lamella (ML) were elastic modulus (E), hardness (H) and ductility ratio (E/H). Values for E S2 were between 12.0 and 15.4 GPa and for E ML between 4.3 and 6.6 GPa. Hardness values were similar in ML and S2 (≈0.3 GPa). The compilation of results showed high correlations between E S2 and carbohydrate content (r = 0.80), between E S2 and hemicellulose content (r = 0.89), and between H S2 and lignin content (r = 0.88).
ISSN:2070-2620
2070-2639
DOI:10.2989/20702620.2017.1376269