Anatomical characteristics of thermally modified Eucalyptus nitens wood in an open and closed reactor system. Wentzel, M., Koddenberg, T., & Militz, H. Wood Material Science & Engineering, 15(4):223–228, July, 2020. Publisher: Taylor & Francis _eprint: https://doi.org/10.1080/17480272.2019.1572649![Anatomical characteristics of thermally modified Eucalyptus nitens wood in an open and closed reactor system [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper doi abstract bibtex Eucalyptus nitens specimens were thermally modified under open and closed systems. The anatomical characteristics from selected modifications that presented similar mass losses were investigated by analyzing images taken from scanning electron microscopy, transmission light microscopy, and X-ray micro-computed tomography. Wood cell wall thickness, fiber, and lumen area were measured and compared to unmodified specimens, and the crack formation after modification was also analyzed. There was only a slight decrease in the measured characteristics when compared to unmodified specimens. The wood cell wall thickness was less affected than the fiber and lumen areas, and both modifications presented similar crack formations. Overall, there were no significant differences between open and closed system modifications in the anatomical structure.
@article{wentzel_anatomical_2020,
title = {Anatomical characteristics of thermally modified {Eucalyptus} nitens wood in an open and closed reactor system},
volume = {15},
issn = {1748-0272},
url = {https://doi.org/10.1080/17480272.2019.1572649},
doi = {10.1080/17480272.2019.1572649},
abstract = {Eucalyptus nitens specimens were thermally modified under open and closed systems. The anatomical characteristics from selected modifications that presented similar mass losses were investigated by analyzing images taken from scanning electron microscopy, transmission light microscopy, and X-ray micro-computed tomography. Wood cell wall thickness, fiber, and lumen area were measured and compared to unmodified specimens, and the crack formation after modification was also analyzed. There was only a slight decrease in the measured characteristics when compared to unmodified specimens. The wood cell wall thickness was less affected than the fiber and lumen areas, and both modifications presented similar crack formations. Overall, there were no significant differences between open and closed system modifications in the anatomical structure.},
language = {en},
number = {4},
urldate = {2020-07-31},
journal = {Wood Material Science \& Engineering},
author = {Wentzel, Maximilian and Koddenberg, Tim and Militz, Holger},
month = jul,
year = {2020},
note = {Publisher: Taylor \& Francis
\_eprint: https://doi.org/10.1080/17480272.2019.1572649},
keywords = {thermal modification, X-ray micro-computed tomography, Eucalyptus, heat-treatment, reactor system, Thermal modification, Wood anatomy, X-ray computed microtomography, XµCT, image analysis, microCT, wood anatomy, Eucalyptus nitens},
pages = {223--228},
file = {Wentzel et al. - 2019 - Anatomical characteristics of thermally modified E.pdf:C\:\\Users\\Eva\\Zotero\\storage\\XNTBQQ2B\\Wentzel et al. - 2019 - Anatomical characteristics of thermally modified E.pdf:application/pdf;Wentzel et al. - 2020 - Anatomical characteristics of thermally modified E.pdf:C\:\\Users\\Eva\\Zotero\\storage\\7WUWMTTC\\Wentzel et al. - 2020 - Anatomical characteristics of thermally modified E.pdf:application/pdf},
}
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