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Thermal Conductivity of Cellulose Fibers in Different Size Scales and Densities

Mathis Antlauf, Nicolas Boulanger, Linn Berglund, Kristiina Oksman, Ove Andersson

2021Biomacromolecules66 citationsDOIOpen Access PDF

Abstract

. Despite a relatively high degree of crystallinity, both CF and CNF samples show amorphous-like thermal conductivity, that is, it increases with increasing temperature. This appears to be due to the nano-sized elementary fibrils of cellulose, which explains that the thermal conductivity of CNFs and CFs shows identical behavior and differs by only ca. 6%. The nano-sized fibrils effectively limit the phonon mean free path to a few nanometers for heat conduction across fibers, and it is only significantly longer for highly directed heat conduction along fibers. This feature of cellulose makes it easier to apply in applications that require low thermal conductivity combined with high strength; the weak density dependence of the thermal conductivity is a particularly useful property when the material is subjected to high loads. The results for thermal conductivity also suggest that the crystalline structures of cellulose remain stable up to at least 0.7 GPa.

Topics & Concepts

Thermal conductivityCelluloseMaterials scienceThermalChemical engineeringCellulose fiberPolymer scienceComposite materialFiberPolymer chemistryThermodynamicsPhysicsEngineeringAdvanced Cellulose Research StudiesNatural Fiber Reinforced CompositesAerogels and thermal insulation
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