J
John C. Hermanson
Researcher at United States Forest Service
Publications - 42
Citations - 1173
John C. Hermanson is an academic researcher from United States Forest Service. The author has contributed to research in topics: Creep & Orthotropic material. The author has an hindex of 14, co-authored 40 publications receiving 1006 citations. Previous affiliations of John C. Hermanson include United States Department of Agriculture & United States Naval Research Laboratory.
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Effect of Natural Fibers on Thermal and Mechanical Properties of Natural Fiber Polypropylene Composites Studied by Dynamic Mechanical Analysis
TL;DR: In this article, the effects of natural fibers on thermal and mechanical properties of polypropylene composites using dynamic mechanical analysis were discussed. But the results indicated that glass transition was slightly shifted to lower temperatures in composites.
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Forensic timber identification: It's time to integrate disciplines to combat illegal logging
Eleanor E. Dormontt,Markus Boner,Birgit Braun,Gerhard Breulmann,Bernd Degen,Edgard O. Espinoza,Shelley Gardner,Phil Guillery,John C. Hermanson,Gerald Koch,Soon Leong Lee,Milton Kanashiro,Anto Rimbawanto,Darren Thomas,Alex C. Wiedenhoeft,Yafang Yin,Johannes Zahnen,Andrew J. Lowe +17 more
TL;DR: It is argued that a new integrated field of forensic timber identification should be a global investment priority, for which the ongoing collection, curation and taxonomic study of appropriate reference material is a critical part.
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Time–temperature superposition principle applied to a kenaf-fiber/high-density polyethylene composite
TL;DR: In this article, the authors applied the time-temperature superposition principle to the viscoelastic properties of a kenaf-fiber/high-density polyethylene (HDPE) composite, and its validity was tested.
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Tensile properties of wood flour/kenaf fiber polypropylene hybrid composites
TL;DR: In this article, the hybrid composites of wood flour/kenaf fiber and polypropylene were prepared at a fixed fiber to plastic ratio of 40 : 60 and variable ratios of the two reinforcements namely 40 : 0, 30 : 10, 20 : 20, 10 : 30, and 0 : 40 by weight.
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Motile cilia create fluid-mechanical microhabitats for the active recruitment of the host microbiome
Janna Nawroth,Janna Nawroth,Hanliang Guo,Eric J. Koch,Elizabeth A. C. Heath-Heckman,John C. Hermanson,Edward G. Ruby,John O. Dabiri,John O. Dabiri,Eva Kanso,Margaret J. McFall-Ngai +10 more
TL;DR: It is shown that ciliated surfaces, in addition to their clearance function, can create fluid-mechanical microhabitats with distinct transport and mixing properties that facilitate the active recruitment of symbiotic candidates from a background of suspended particles.