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Evaluation of non-destructive techniques and visual assessments of grade fibre-grown Eucalyptus logs for structural products

Citation

Balasso, M and Hunt, M and Nolan, G and Kotlarewski, N and Jacobs, A and O'Reilly-Wapstra, J, Evaluation of non-destructive techniques and visual assessments of grade fibre-grown Eucalyptus logs for structural products, Proceedings of the 21st International Non-destructive Testing and Evaluation of Wood Symposium, 24-28 September 2019, Freiburg, Germany (2019) [Conference Extract]


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Abstract

Eucalypt plantations occur worldwide, occupying almost 22 million hectares of land. These plantations are predominantly managed for fibre-based products, and their use for other product types is of increasing interest. While native forest eucalypt material is mainly sawn for timber for appearance application, the potential use of a plantation-based resource for structural products is currently being investigated.

Structural products require stiff forest material and the timber industry may exploit advantageously Non-Destructive Techniques (NDT) to identify the timber qualities most suited for these products.

Adequate studies are needed to support the use of NDT as segregation tools and evaluate their potential to reliably indicate important wood quality variables.

To support better integration of NDT into the segregation of the resource for preferred uses, a study was conducted in a fibre-managed Eucalyptus nitens plantation in Tasmania, Australia. Forty trees were assessed with NDT acoustic techniques, harvested and bucked to sawlog lengths. Logs were measured and evaluated with both acoustic resonance techniques and by visual assessments. Positive and significant correlations were found between the tree and the log measurements, while NDT measures on logs were correlated with visual features.

Results highlight the potential for the integration of visual grading and NDT testing for assessing plantation eucalypt logs and batching them into quality classes according to their characteristics. An accurate classification of the material would support a more efficient use of a low-grade resource which might satisfy different markets such as that for structural Engineered Wood Products (EWP).

Item Details

Item Type:Conference Extract
Keywords:Eucalyptus, plantations, solid wood products, NDT testing
Research Division:Agricultural and Veterinary Sciences
Research Group:Forestry Sciences
Research Field:Wood Processing
Objective Division:Plant Production and Plant Primary Products
Objective Group:Forestry
Objective Field:Hardwood Plantations
UTAS Author:Balasso, M (Miss Michelle Balasso)
UTAS Author:Hunt, M (Professor Mark Hunt)
UTAS Author:Nolan, G (Professor Gregory Nolan)
UTAS Author:Kotlarewski, N (Dr Nathan Kotlarewski)
UTAS Author:O'Reilly-Wapstra, J (Associate Professor Julianne O'Reilly-Wapstra)
ID Code:135795
Year Published:2019
Deposited By:Plant Science
Deposited On:2019-11-14
Last Modified:2019-11-18
Downloads:0

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