1. Direct Measurement of Temperature Diffusivity of Nanocellulose-Doped Biodegradable Composite Films
- Author
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Meguya Ryu, Elena P. Ivanova, Yoshiaki Nishijima, Junko Morikawa, Denver P. Linklater, Stefan Lundgaard, Saulius Juodkazis, and Hiroki Fujisawa
- Subjects
Materials science ,Polymer nanocomposite ,lcsh:Mechanical engineering and machinery ,temperature diffusivity ,Composite number ,02 engineering and technology ,nano cellulose ,010402 general chemistry ,Thermal diffusivity ,01 natural sciences ,Article ,Nanocellulose ,Nanomaterials ,lcsh:TJ1-1570 ,Electrical and Electronic Engineering ,Composite material ,chemistry.chemical_classification ,Nanocomposite ,Mechanical Engineering ,thermal properties ,Polymer ,021001 nanoscience & nanotechnology ,Biodegradable polymer ,0104 chemical sciences ,chemistry ,Control and Systems Engineering ,0210 nano-technology - Abstract
The thermal properties of novel nanomaterials play a significant role in determining the performance of the material in technological applications. Herein, direct measurement of the temperature diffusivity of nanocellulose-doped starch&ndash, polyurethane nanocomposite films was carried out by the micro-contact method. Polymer films containing up to 2 wt%. of nanocellulose were synthesised by a simple chemical process and are biodegradable. Films of a high optical transmittance T&asymp, 80% (for a 200 &mu, m thick film), which were up to 44% crystalline, were characterised. Two different modalities of temperature diffusivity based on (1) a resistance change and (2) micro-thermocouple detected voltage modulation caused by the heat wave, were used for the polymer films with cross sections of &sim, 100 &mu, m thickness. Twice different in-plane &alpha, ‖ and out-of-plane &alpha, &perp, temperature diffusivities were directly determined with high fidelity: &alpha, ‖=2.12×, 10&minus, 7 m2/s and &alpha, =1.13×, 7 m2/s. This work provides an example of a direct contact measurement of thermal properties of nanocellulose composite biodegradable polymer films. The thermal diffusivity, which is usually high in strongly interconnected networks and crystals, was investigated for the first time in this polymer nanocomposite.
- Published
- 2020