Enhancement of the Physical and Mechanical Properties of Cellulose Nanofibril-Reinforced Lignocellulosic Foams for Packaging and Building Applications
Biobased foams have the potential to serve as eco-friendly alternatives to petroleum-based foams, provided they achieve comparable thermomechanical and physical properties. We propose a facile approach to fabricate eco-friendly cellulose nanofibril (CNF)-reinforced thermomechanical pulp (TMP) fiber-...
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| Published in: | Nanomaterials (Basel, Switzerland) Vol. 14; no. 22; p. 1837 |
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| Main Authors: | , , , |
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| Language: | English |
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| Abstract | Biobased foams have the potential to serve as eco-friendly alternatives to petroleum-based foams, provided they achieve comparable thermomechanical and physical properties. We propose a facile approach to fabricate eco-friendly cellulose nanofibril (CNF)-reinforced thermomechanical pulp (TMP) fiber-based foams via an oven-drying process with thermal conductivity as low as 0.036 W/(m·K) at a 34.4 kg/m3 density. Acrodur®, iron chloride (FeCl3), and cationic polyacrylamide (CPAM) were used to improve the foam properties. Acrodur® did not have any significant effect on the foamability and density of the foams. Mechanical, thermal, cushioning, and water absorption properties of the foams were dependent on the density and interactions of the additives with the fibers. Due to their high density, foams with CPAM and FeCl3 at a 1% additive dosage had significantly higher compressive properties at the expense of slightly higher thermal conductivity. There was slight increase in compressive properties with the addition of Acrodur®. All additives improved the water stability of the foams, rendering them stable even after 24 h of water absorption. |
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| AbstractList | Biobased foams have the potential to serve as eco-friendly alternatives to petroleum-based foams, provided they achieve comparable thermomechanical and physical properties. We propose a facile approach to fabricate eco-friendly cellulose nanofibril (CNF)-reinforced thermomechanical pulp (TMP) fiber-based foams via an oven-drying process with thermal conductivity as low as 0.036 W/(m·K) at a 34.4 kg/m3 density. Acrodur®, iron chloride (FeCl3), and cationic polyacrylamide (CPAM) were used to improve the foam properties. Acrodur® did not have any significant effect on the foamability and density of the foams. Mechanical, thermal, cushioning, and water absorption properties of the foams were dependent on the density and interactions of the additives with the fibers. Due to their high density, foams with CPAM and FeCl3 at a 1% additive dosage had significantly higher compressive properties at the expense of slightly higher thermal conductivity. There was slight increase in compressive properties with the addition of Acrodur®. All additives improved the water stability of the foams, rendering them stable even after 24 h of water absorption. Biobased foams have the potential to serve as eco-friendly alternatives to petroleum-based foams, provided they achieve comparable thermomechanical and physical properties. We propose a facile approach to fabricate eco-friendly cellulose nanofibril (CNF)-reinforced thermomechanical pulp (TMP) fiber-based foams via an oven-drying process with thermal conductivity as low as 0.036 W/(m·K) at a 34.4 kg/m 3 density. Acrodur ® , iron chloride (FeCl 3 ), and cationic polyacrylamide (CPAM) were used to improve the foam properties. Acrodur ® did not have any significant effect on the foamability and density of the foams. Mechanical, thermal, cushioning, and water absorption properties of the foams were dependent on the density and interactions of the additives with the fibers. Due to their high density, foams with CPAM and FeCl 3 at a 1% additive dosage had significantly higher compressive properties at the expense of slightly higher thermal conductivity. There was slight increase in compressive properties with the addition of Acrodur ® . All additives improved the water stability of the foams, rendering them stable even after 24 h of water absorption. |
| Author | Tajvidi, Mehdi Hossain, Rakibul Alonso, Mara Paulette El Hajam, Maryam |
| AuthorAffiliation | 1 Department of Chemical and Biomolecular Engineering, University of California, Berkeley, CA 94720, USA; mpalonso@ncsu.edu 2 School of Forest Resources and Advanced Structures and Composites Center, University of Maine, Orono, ME 04469, USA; rakibul.hossain@maine.edu (R.H.); maryam.el1@maine.edu (M.E.H.) |
| AuthorAffiliation_xml | – name: 1 Department of Chemical and Biomolecular Engineering, University of California, Berkeley, CA 94720, USA; mpalonso@ncsu.edu – name: 2 School of Forest Resources and Advanced Structures and Composites Center, University of Maine, Orono, ME 04469, USA; rakibul.hossain@maine.edu (R.H.); maryam.el1@maine.edu (M.E.H.) |
| Author_xml | – sequence: 1 givenname: Mara Paulette surname: Alonso fullname: Alonso, Mara Paulette – sequence: 2 givenname: Rakibul surname: Hossain fullname: Hossain, Rakibul – sequence: 3 givenname: Maryam surname: El Hajam fullname: El Hajam, Maryam – sequence: 4 givenname: Mehdi orcidid: 0000-0002-3549-1220 surname: Tajvidi fullname: Tajvidi, Mehdi |
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| SubjectTerms | Absorption Additives Carbon dioxide Cellulose Compressive properties Construction Density Drying ovens Emissions Energy consumption Ferric chloride Fibers Foams Heat Heat transfer Insulation Iron chlorides Lignocellulose Mechanical properties Nanomaterials Packaging industry Physical properties Plastic foam Polyacrylamide Porous materials Surfactants Thermal conductivity Thermomechanical properties Water absorption Water stability |
| Title | Enhancement of the Physical and Mechanical Properties of Cellulose Nanofibril-Reinforced Lignocellulosic Foams for Packaging and Building Applications |
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