home
focus and scope
journal policies
Focus and scope Peer review process Openness and transparency Publication frequency Archiving Article processing charges Criteria for authorship and contributors Conflicts of interest Allegations of misconduct Complaints process Sponsors Journal History
author instructions
General Metadata Article Categories Openness and transparency Submission of manuscripts Manuscript text Citation standards Tables and figures Acknowledgements, funding and availability of research materials and data Supplementary files Procedures for revised and accepted manuscripts
special issues
editors
open access
other journals
Metsätieteen aikakauskirja Dissertationes Forestales Suo - Mires and Peat
contact
financial information
Full text of this article is only available in PDF format.

Sandhya Samarasinghe (email), Don Kulasiri, Tristan Jamieson

Neural networks for predicting fracture toughness of individual wood samples

Samarasinghe S., Kulasiri D., Jamieson T. (2007). Neural networks for predicting fracture toughness of individual wood samples. Silva Fennica vol. 41 no. 1 article id 309. https://doi.org/10.14214/sf.309

Abstract

Strain energy release rate (GIc) of Pinus radiata in the TL opening mode was determined using the compliance crack length relationship. A total of 123 specimens consisting of four sizes of specimen with each size having four different crack lengths were tested. For each specimen, grain and ring angles, density and moisture content were measured. Video imaging, was used to measure crack length during propagation. Since cracks extended in stages, full compliance-crack length relationship was developed for each specimen based on their initial and subsequent crack lengths. No significant differences in GIc, between initial and subsequent crack lengths were found for the smaller specimens by paired sample t-tests, but differences were significant for the largest specimen size. The Average fracture toughness was calculated from GIc and it was 215 kPa.m0.5. Three artificial neural networks were developed to predict the: 1) force required to propagate a crack, 2) crack extension, and 3) fracture toughness of an individual specimen. Each was successful, producing respective R2 of 0.870, 0.865, and 0.621 on validation data. A sensitivity analysis of the networks revealed that the crack length was the most influential with 21% contribution followed by grain angle with 14% contribution for predicting the applied force. This was followed by volume and physical properties. For predicting the crack extension, density had the greatest contribution (20%) followed by previous crack length and force contributing 16% equally. Fracture toughness was dominated by the dimensional parameters of the specimen contributing (42%) followed by anisotropy and physical properties.

Keywords
Pinus radiata; New Zealand; video imaging; strain energy release rate; Neural Networks; fracture toughness

Author Info
  • Samarasinghe, Centre for Advanced Computational Solutions (C-fACS), Lincoln University, New Zealand E-mail ss@nn.nz (email)
  • Kulasiri, Centre for Advanced Computational Solutions (C-fACS), Lincoln University, New Zealand E-mail dk@nn.nz
  • Jamieson, Centre for Advanced Computational Solutions (C-fACS), Lincoln University, New Zealand E-mail tj@nn.nz

Received 17 July 2006 Accepted 30 January 2007 Published 31 December 2007

Views 8850

Available at https://doi.org/10.14214/sf.309 | Download PDF

Creative Commons License CC BY-SA 4.0
Register
Click this link to register to Silva Fennica.
Log in
If you are a registered user, log in to save your selected articles for later access.
Contents alert
Sign up to receive alerts of new content
Export reference to EndNote / RefWorks
Related articles
Your selected articles
Send to email
Päivinen R., Yli-Kojola H. (1989) Permanent sample plots in large-area forest inve.. Silva Fennica vol. 23 no. 3 article id 5386 (remove) | Edit comment
Nyyssönen A., Poso S. (1962) Tree stand classifications from aerial photograp.. Silva Fennica vol. no. 112 article id 4705 (remove) | Edit comment
Nyyssönen A., (1963) Analysis of two alternative methods for national.. Acta Forestalia Fennica vol. 76 no. 6 article id 7146 (remove) | Edit comment
Pöntynen V., (1936) The consumption of wood in forest manufacturing .. Acta Forestalia Fennica vol. 45 no. 3 article id 7335 (remove) | Edit comment
Hyde W. F., Köhlin G. (2000) Social forestry reconsidered Silva Fennica vol. 34 no. 3 article id 632 (remove) | Edit comment
Aro P., (1942) Results of sawing experiments using wooden bow saw Acta Forestalia Fennica vol. 50 no. 21 article id 7374 (remove) | Edit comment
Renvall A., (1914) Paper on knowledge about so-called partial varia.. Acta Forestalia Fennica vol. 3 no. 2 article id 7532 (remove) | Edit comment
Maliniemi E., (1933) Seasonal variations of pulpwood harvesting in th.. Silva Fennica vol. no. 29 article id 4470 (remove) | Edit comment
Samarasinghe S., Kulasiri D. et al. (2007) Neural networks for predicting fracture toughnes.. Silva Fennica vol. 41 no. 1 article id 309 (remove) | Edit comment
Your search results
Silva Fennica · Finnish Society of Forest Science