Influence of a hydrocarbon side chain on the performance of Physaria fendleri-Castor oil polyurethane packaging adhesives

Influence of a hydrocarbon side chain on the performance of Physaria fendleri-Castor oil polyurethane packaging adhesives

Polyurethanes (PU) are an important class of materials used in various applications across industries. With increased global interest in sustainable and environmentally benign packaging, there is high demand to replace traditional petroleum-based materials with renewable, bio-derived sources. This r...

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Bibliographic Details
Main Authors: Alexandra Ivey, Joey Talbert, Roque Evangelista, Keith Vorst, Greg Curtzwiler
Format: Article
Language:English
Published: Elsevier 2021-10-01
Series:Cleaner Engineering and Technology
Subjects:
Biobased
Plant oil
Adhesive
Packaging
Multilayer
Online Access:http://www.sciencedirect.com/science/article/pii/S2666790821001762
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spelling doaj-a25441161a254fb4ad8d6ecd44c69a742021-09-11T04:31:12ZengElsevierCleaner Engineering and Technology2666-79082021-10-014100216Influence of a hydrocarbon side chain on the performance of Physaria fendleri-Castor oil polyurethane packaging adhesivesAlexandra Ivey0Joey Talbert1Roque Evangelista2Keith Vorst3Greg Curtzwiler4Department of Food Science and Human Nutrition, Iowa State University, 536 Farmhouse lane Ames, Iowa, 50011, USA; Polymer and Food Protection Consortium, Iowa State University, 536 Farmhouse lane Ames, Iowa, 50011, USADepartment of Food Science and Human Nutrition, Iowa State University, 536 Farmhouse lane Ames, Iowa, 50011, USAUSDA, Agricultural Research Service, National Center for Agricultural Utilization Research, Bio-Oils Research Unit, 1815 N University St, Peoria, IL, 61604, USADepartment of Food Science and Human Nutrition, Iowa State University, 536 Farmhouse lane Ames, Iowa, 50011, USA; Polymer and Food Protection Consortium, Iowa State University, 536 Farmhouse lane Ames, Iowa, 50011, USADepartment of Food Science and Human Nutrition, Iowa State University, 536 Farmhouse lane Ames, Iowa, 50011, USA; Polymer and Food Protection Consortium, Iowa State University, 536 Farmhouse lane Ames, Iowa, 50011, USA; Corresponding author. Department of Food Science and Human Nutrition, Iowa State University, 536 Farmhouse lane Ames, Iowa, 50011, USA.Polyurethanes (PU) are an important class of materials used in various applications across industries. With increased global interest in sustainable and environmentally benign packaging, there is high demand to replace traditional petroleum-based materials with renewable, bio-derived sources. This research developed PU adhesives for multilayer flexible food packaging using Physaria fendleri oil (formerly Lesquerella fendleri) and Ricinus communis (Castor oil), each possessing naturally occurring hydroxyl functional groups. Physaria oil has, on average, hydroxyl functionality on two of the three fatty acids compared to all three for Castor oil; therefore systematically varying the concentration of each oil and maintaining a constant crosslink density for each adhesive facilitates an understanding of the effect of Physaria oil's unreacted hydrocarbon sidechain on physical properties in biobased adhesives. The results of this study determined that the peel resistance of polyethylene and polyethylene terephthalate substrates adhered with adhesives containing varying amounts of Physaria and castor oils possessed average peel strengths of 6–8 N relatively independent of composition. Furthermore, the glass transition temperatures were measured to be within the range of −25 to −44 °C with higher concentrations of the hydrocarbon sidechain resulting in lower Tgs. These physical properties indicate their use in multilayer food packaging adhesive applications where isocyanate PU adhesives are still commonplace. Understanding the PU adhesive network structure-property relationships will help develop the next generation of bio-derived PU adhesives with additional sources of renewable feedstocks for food packaging applications.http://www.sciencedirect.com/science/article/pii/S2666790821001762BiobasedPlant oilAdhesivePackagingMultilayer
collection DOAJ
language English
format Article
sources DOAJ
author Alexandra Ivey
Joey Talbert
Roque Evangelista
Keith Vorst
Greg Curtzwiler
spellingShingle Alexandra Ivey
Joey Talbert
Roque Evangelista
Keith Vorst
Greg Curtzwiler
Influence of a hydrocarbon side chain on the performance of Physaria fendleri-Castor oil polyurethane packaging adhesives
Cleaner Engineering and Technology
Biobased
Plant oil
Adhesive
Packaging
Multilayer
author_facet Alexandra Ivey
Joey Talbert
Roque Evangelista
Keith Vorst
Greg Curtzwiler
author_sort Alexandra Ivey
title Influence of a hydrocarbon side chain on the performance of Physaria fendleri-Castor oil polyurethane packaging adhesives
title_short Influence of a hydrocarbon side chain on the performance of Physaria fendleri-Castor oil polyurethane packaging adhesives
title_full Influence of a hydrocarbon side chain on the performance of Physaria fendleri-Castor oil polyurethane packaging adhesives
title_fullStr Influence of a hydrocarbon side chain on the performance of Physaria fendleri-Castor oil polyurethane packaging adhesives
title_full_unstemmed Influence of a hydrocarbon side chain on the performance of Physaria fendleri-Castor oil polyurethane packaging adhesives
title_sort influence of a hydrocarbon side chain on the performance of physaria fendleri-castor oil polyurethane packaging adhesives
publisher Elsevier
series Cleaner Engineering and Technology
issn 2666-7908
publishDate 2021-10-01
description Polyurethanes (PU) are an important class of materials used in various applications across industries. With increased global interest in sustainable and environmentally benign packaging, there is high demand to replace traditional petroleum-based materials with renewable, bio-derived sources. This research developed PU adhesives for multilayer flexible food packaging using Physaria fendleri oil (formerly Lesquerella fendleri) and Ricinus communis (Castor oil), each possessing naturally occurring hydroxyl functional groups. Physaria oil has, on average, hydroxyl functionality on two of the three fatty acids compared to all three for Castor oil; therefore systematically varying the concentration of each oil and maintaining a constant crosslink density for each adhesive facilitates an understanding of the effect of Physaria oil's unreacted hydrocarbon sidechain on physical properties in biobased adhesives. The results of this study determined that the peel resistance of polyethylene and polyethylene terephthalate substrates adhered with adhesives containing varying amounts of Physaria and castor oils possessed average peel strengths of 6–8 N relatively independent of composition. Furthermore, the glass transition temperatures were measured to be within the range of −25 to −44 °C with higher concentrations of the hydrocarbon sidechain resulting in lower Tgs. These physical properties indicate their use in multilayer food packaging adhesive applications where isocyanate PU adhesives are still commonplace. Understanding the PU adhesive network structure-property relationships will help develop the next generation of bio-derived PU adhesives with additional sources of renewable feedstocks for food packaging applications.
topic Biobased
Plant oil
Adhesive
Packaging
Multilayer
url http://www.sciencedirect.com/science/article/pii/S2666790821001762
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