Degradable Foam Tray Based on High-concentration Dispersed Cellulose Fibers Obtained by a Hot-press Baking Process

Ruijuan Zhang; Yanqun Su; Tao Zhao; Jingang Liu; Hongjie Zhang; Leilei Hou; Xianling Fu; Qi Chen

doi:10.26599/PBM.2023.9260022

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Research Article | Open Access

Degradable Foam Tray Based on High-concentration Dispersed Cellulose Fibers Obtained by a Hot-press Baking Process

Ruijuan Zhang^{¹^,²}, Yanqun Su^{¹^,²}(

), Tao Zhao^{¹^,³}, Jingang Liu^{¹^,²}, Hongjie Zhang^{¹^,²}, Leilei Hou^{¹^,²}, Xianling Fu^¹, Qi Chen^⁴

China National Pulp and Paper Research Institute Co., Ltd., Beijing, 100102, China

National Engineering Lab for Pulp and Paper, Beijing, 100102, China

Sinolight Specialty Fiber Products Co., Ltd., Langfang, Hebei Province, 065008, China

China National Intellectual Property Administration, Beijing, 100088, China

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Abstract

Degradable industrial packaging foam trays made from cellulose fibers were fabricated using a hot-press baking process. Bleached softwood pulp fibers with a concentration of 30% were dispersed at a high speed under the action of a dispersant. The effects of the dispersant dosage of the fibers on the porosity, foam density, and static compression characteristics were discussed. Furthermore, the effects of the reinforcing adhesive including polyvinyl alcohol (PVA), and cassava starch on the physical and mechanical properties of the foam trays were studied, as well as the relationship between these properties and the microstructure of the foam trays. The dispersant enhanced the rheological and blistering properties of the fiber dispersion. As the dispersant dosage increased from 2% to 4%, the foam density gradually increased and the compressive strain performance and residual compressive strain of the foam trays decreased. Under the condition of constant dosage of dispersant, increasing the fiber proportion from 67% to 77% improved the porosity and foam density and slightly reduced the static compression performance. In additioton, the static compression resistance of the foamed materials was improved by increasing the PVA dosage since PVA was beneficial for improving the strength of the foam trays.

Keywords

polyvinyl alcohol degradable foam cellulose fiber dispersion cassava starch

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Paper and Biomaterials

Volume 8 Issue 4,
October 2023

Pages 20-26

DOI: 10.26599/PBM.2023.9260022

Cite this article:

Zhang R, Su Y, Zhao T, et al. Degradable Foam Tray Based on High-concentration Dispersed Cellulose Fibers Obtained by a Hot-press Baking Process. Paper and Biomaterials, 2023, 8(4): 20-26. https://doi.org/10.26599/PBM.2023.9260022

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Received: 04 June 2023

Accepted: 21 July 2023

Published: 25 October 2023

The articles published in this open access journal are distributed under the terms and conditions of the Creative Commons Attribution 4.0 International License (https://creativecommons.org/licenses/by-nc-nd/4.0/).