Investigating the effect of coated cardboard storage in freezer coated with two layers of nano-polyurethane and nano-clay on its physical and mechanical properties

Ebrahimpour Kasmani, Jafar; Samariha, Ahmad; Khakifirooz, Alireza

doi:10.22092/ijwpr.2023.361258.1746

Document Type : Research Paper

Authors

¹ Associate Prof, Department of Wood and Paper Science & Technology, Savadkooh Branch, Islamic Azad University, Savadkooh, Iran

² Department of Wood Industry, Technical and Vocational University (TVU), Tehran, Iran

³ Faculty of Chemistry and Petrochemical Engineering, Department of Cellulosic Materials and Packaging, Standard Research Institute (SRI), Karaj, Iran

https://doi.org/10.22092/ijwpr.2023.361258.1746

Abstract

This research was conducted with the aim of investigating the effect of two-layer coating of nano-polyurethane and nano-clay on the mechanical and physical properties of packaging cardboard with brown layer. For this purpose, brown layer cardboard with grammage of 127 was prepared and tested. To coat the surface of the cardboard, it was first coated with nano-polyurethane and sprayed by a coating nozzle. Then the surface of the brown layer cardboard was covered with nano-clay to improve the performance of the coating material of the first treatment. Nano-clay coating was performed by a laboratory coating machine called barcoter. The coated cardboards were restrained and dried in the room for one day to stabilize the coating material on their surface. Then the samples were placed inside the freezer for 2 and 4 months and their properties were measured. The results showed that coating reduced water absorption. In the coated and frozen samples, an increase in thickness, smoothness of the surface and a decrease in water absorption and resistance properties compared to non-frozen control samples have been observed. Double coated samples showed very few pores. The thickness, smoothness of the surface and resistance to tearing in the machine cross direction of the double coated brown cardboard showed an increase of 13.7%, 75% and 3.8%, respectively, compared to the control sample. water absorption, resistance to bursting, resistance to tearing in the machine direction, resistance to tensile in the machine direction, resistance to tensile in the cross machine direction, resistance to ring crush test in the machine direction and resistance to ring crush test in the cross machine direction of the double-coated brown layer cardboard compared to the control sample, showed 107.20, 1.5, 34.3, 25.4, 24.3, and 4.7 percent decrease respectively.

Keywords

20.1001.1.17350913.1402.38.3.4.0

Main Subjects

Pulp and paper

References

-Asadi khansari, R. and Dehghani Firouzabadi, M., 2013. Introduce of new paper and cardboard in food packaging. Journal of packaging science and technology, 16(4): 46-57. (In Persian).

-Deisenroth. E. Jho. C., Haniff. M. and Jennings, J., 1998. The designing of a new grease repellent fluorochemical for the paper industry. Surface Coatings International, 81(9): 440-447.

-Espitia, P.J.P. 2013. Physical-mechanical and antimicrobial properties of nanocomposite films with pediocin and ZnO nanoparticles. Carbohyd Polym. 94(1): 199-208.

-Han, J.H. & Krochta, J. M., 2001. Physical properties and oil absorption of whey protein-coated paper. Journal of Food Science, 66(2): 294–299.

-Hubbe, M.A., 2020. Security papers: Trust but verify, in: Make Paper Products Stand Out. Strategic Use of Wet End Chemical Additives. TAPPI Press, Atlanta, GA, Ch. 6, pp. 129-154.

-Mashkour, M. Afra, E. and Resalati, H., 2016. Prediction of nanofibrillated cellulose reinforced acetylated papers properties using artificial neural networks, J. of Wood & Forest Science and Technology, 23(4): 268-292. (In Persian).

-Moakhar, F.K. Azadfallah, M., Jonoobi, M. and Rouhani, M., 2017. Effect of soy protein isolate/cellulose nanofiber composite coating on mechanical and barrier properties of packaging paper, Forest and Wood Products. 70(3): 548-539. (In Persian).

-Pornasir, N. Peyghambardoost, J. and Peyghambardoodst, H., 2016. The study of physical, mechanical and antibacterial properties of nanobio-composite films based on starch containing silver, oxide and copper oxide nanoparticles. Journal of new food technologies. 14(4): 24-33.

-Rhim, J. W. Lee, J.H. & Hong, S.I., 2006. Water resistance and mechanical properties of biopolymer (alginate and soy protein) coated paperboards. Lebensmittel-Wissenschaft Und-Technologie (LWT), 39: 806–813.

-Reis, A. B. Yoshida, C.M., Reis, A.P.C. & Franco, T.T., 2011. Application of chitosan emulsion as a coating on Kraft paper. Polymer International, 60(6): 963-969.

-Samyn, P., Deconinck, M., Schoukens, G. and Vanden, A.H., 2010. Modifications of paper and paperboard surfaces with a nanostructured polymer coating. Progress in organic coatings. 69(4): 442-454.

-Tunc, S., Angellier, H., Cahyana, Y., Chalier, P., Gontard, N. & Gastaldi, E., 2007. Functional properties of wheat gluten/montmorillonite nanocomposite films processed by casting. Journal of membrane science, 289(1-2): 159-168.

-Wang, S.h. and Jing, Y., 2016. Effects of chitosan coating layer on the surface properties &barrier properties of Kraft paper. BioResources. 11(1): 1868-1881

Iranian Journal of Wood and Paper Science Research

Investigating the effect of coated cardboard storage in freezer coated with two layers of nano-polyurethane and nano-clay on its physical and mechanical properties

References

References

Volume 38, Issue 3 - Serial Number 84
September 2023
Pages 205-214

Investigating the effect of coated cardboard storage in freezer coated with two layers of nano-polyurethane and nano-clay on its physical and mechanical properties

References

References

Volume 38, Issue 3 - Serial Number 84September 2023Pages 205-214

Volume 38, Issue 3 - Serial Number 84
September 2023
Pages 205-214