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Journal article
Assessment of Bending Strength of Eucalyptus Pellita Wood by Acoustic Velocity (AV) Technique
Environment-Behaviour Proceedings Journal, Vol.9(Special Issue 17), pp.539-544
International Conference on Wood and Eco-Products (ICWEP), 2022 (Shah Alam, Malaysia, 15-Nov-2022–16-Nov-2022)
2024
Abstract
This study was conducted to validate the bending strength of Eucalyptus pellita using the acoustic velocity method and the conventional method. Acoustic velocity was measured on slabs using Fakopp Microsecond Timer, which relies on the time-of-flight principle. Acoustic velocity was converted to the dynamic modulus of elasticity MOEdyn based on the equation MOEdyn = ρAV2. The conversion equations between MOEdyn and static MOE were established using the regression method. The bending test was conducted according to standard ISO 13061. Results show that the acoustic velocity method can be used to predict the static MOE value.
Details
- Title
- Assessment of Bending Strength of Eucalyptus Pellita Wood by Acoustic Velocity (AV) Technique
- Authors
- Noorsyazwani Mansoor - Universiti Putra MalaysiaAdlin Sabrina Muhammad Roseley (Corresponding Author) - Universiti Putra MalaysiaSabiha Salim - Universiti Putra MalaysiaRoger Meder - University of the Sunshine Coast, Queensland, Forest Industries Research Centre
- Publication details
- Environment-Behaviour Proceedings Journal, Vol.9(Special Issue 17), pp.539-544
- Conference details
- International Conference on Wood and Eco-Products (ICWEP), 2022 (Shah Alam, Malaysia, 15-Nov-2022–16-Nov-2022)
- Publisher
- e-International Publishing House Ltd
- Date published
- 2024
- DOI
- 10.21834/e-bpj.v9iSI17.5974
- ISSN
- 2398-4287
- Copyright note
- (c) 2024 Noorsyazwani Mansoor, Adlin Sabrina Muhammad Roseley, Sabiha Salim, Roger Meder. This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
- Grant note
- This research was funded by the (FRGS 2020-1) FRGS/1/2/2020/WAB03/UPM/02/2 by the Ministry of Higher Education (MOHE), Malaysia.
- Organisation Unit
- Forest Industries Research Centre
- Language
- English
- Record Identifier
- 991051598902621
- Output Type
- Journal article
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