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Drying Technology
An International Journal
Volume 34, 2016 - Issue 10
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Original Articles

Drying of foam-formed mats from virgin pine fibers

Oleg TimofeevFibres and Biobased Materials Research Group, VTT Technical Research Centre of Finland Ltd., Jyväskylä, FinlandCorrespondence[email protected]
,
Petri JetsuFibres and Biobased Materials Research Group, VTT Technical Research Centre of Finland Ltd., Jyväskylä, Finland
,
Harri KiiskinenFibres and Biobased Materials Research Group, VTT Technical Research Centre of Finland Ltd., Jyväskylä, Finland
&
Janne T. KeränenFibres and Biobased Materials Research Group, VTT Technical Research Centre of Finland Ltd., Jyväskylä, Finland
Pages 1210-1218 | Published online: 22 Jun 2016

Citations (14)

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Read on this site (2)

Hamidreza Ahadian, Elaheh Sharifi Zamani, Josphat Phiri & Thaddeus Maloney. (2022) Fast dewatering of high nanocellulose content papers with in-situ generated cationic micro-nano bubbles. Drying Technology 40:11, pages 2368-2381.
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Tuomo Hjelt, Jukka A. Ketoja, Harri Kiiskinen, Antti I. Koponen & Elina Pääkkönen. (2022) Foam forming of fiber products: a review. Journal of Dispersion Science and Technology 43:10, pages 1462-1497.
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Articles from other publishers (12)

Gregory Glenn, William Orts, Artur Klamczynski, Randall Shogren, William Hart-Cooper, Delilah Wood, Charles Lee & Bor-Sen Chiou. (2023) Compression molded cellulose fiber foams. Cellulose 30:6, pages 3489-3503.
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Jianming Liao, Pengcheng Luan, Yuxiang Zhang, Li Chen, Luyao Huang, Lihuan Mo, Jun Li & Qingang Xiong. (2022) A lightweight, biodegradable, and recyclable cellulose-based bio-foam with good mechanical strength and water stability. Journal of Environmental Chemical Engineering 10:3, pages 107788.
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Petronela Nechita & Silviu Marian Năstac. (2022) Overview on Foam Forming Cellulose Materials for Cushioning Packaging Applications. Polymers 14:10, pages 1963.
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Islam Hafez & Mehdi Tajvidi. (2021) Comprehensive Insight into Foams Made of Thermomechanical Pulp Fibers and Cellulose Nanofibrils via Microwave Radiation. ACS Sustainable Chemistry & Engineering 9:30, pages 10113-10122.
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Elisa S. Ferreira, Camila A. Rezende & Emily D. Cranston. (2021) Fundamentals of cellulose lightweight materials: bio-based assemblies with tailored properties. Green Chemistry 23:10, pages 3542-3568.
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Antti I. Koponen, Oleg Timofeev, Ari Jäsberg & Harri Kiiskinen. (2020) Drainage of high-consistency fiber-laden aqueous foams. Cellulose 27:16, pages 9637-9652.
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Elisa S. Ferreira, Emily D. Cranston & Camila A. Rezende. (2020) Naturally Hydrophobic Foams from Lignocellulosic Fibers Prepared by Oven-Drying. ACS Sustainable Chemistry & Engineering 8:22, pages 8267-8278.
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Shunxi Song, Xiaoli Zhen, Meiyun Zhang, Peiyao Wang & Jiaojun Tan. (2019) Foam Forming: An Effective Method to Prepare Polyimide Fiber-based Paper. Paper and Biomaterials 4:3, pages 39-44.
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S. R. Burke, M. E. Möbius, T. Hjelt & S. Hutzler. (2019) Properties of lightweight fibrous structures made by a novel foam forming technique. Cellulose 26:4, pages 2529-2539.
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Elisa S. Ferreira & Camila A. Rezende. (2018) Simple Preparation of Cellulosic Lightweight Materials from Eucalyptus Pulp. ACS Sustainable Chemistry & Engineering 6:11, pages 14365-14373.
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Michael Lecourt, Tiina Pöhler, Joanna Hornatowska, Lennart Salmén & Petri Jetsu. (2018) Density profiles of novel kraft pulp and TMP based foam formed thermal insulation materials observed by X-ray tomography and densitometry. Holzforschung 72:5, pages 397-403.
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Tiina Pöhler, Petri Jetsu & Heikki Isomoisio. (2016) Benchmarking new wood fibre–based sound absorbing material made with a foam-forming technique. Building Acoustics 23:3-4, pages 131-143.
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