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Surface Properties of Modified Cardboard

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S.I. Basirova, M.F. Galikhanov, L.R. Galeeva

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UDС

676.26

DOI:

10.17238/ issn0536-1036.2019.6.233

Abstract

The influence of cardboard modification on the complex of its surface properties is studied. The cardboard surface properties were calculated based on the contact angle values of five different liquids. The samples absorbency was determined by the methods of full immersion and drop infusion. The effect of cardboard processing with polylactide and starch coatings on its wetting ability and absorbency was assessed. It was found that free surface energy changes when applying biodegradable polymers to cardboard; it decreases by approximately 37 % when applying polylactide coating, and it slightly increases (by approximately 3 %) when applying starch coating. The absorbency of completely immersed cardboard decreases in approximately 1.7 times when applying polylactide coating; this cardboard characteristic slightly increases (by approximately 6 %) when applying starch coating. Similar dependences were observed in the study of dripping absorbency of cardboard. Polylactide coating prevented the absorption of a drop of water, and the absorption time of the cardboard decreased during processing with starch coating. The changeability of properties of pulp and paper materials with the use of a unipolar corona discharge is shown. Imparting an electretretic state to pulp and paper materials was evaluated by the surface potential values, electrostatic field intensity, and effective surface electric charge density. The surface energy decreases by 20–25 % on average while processing with the permanent corona discharge of the initial samples of cardboard and cardboard modified with starch or polylactide. As a result, the absorbency of the modified cardboard with full immersion grows less than that of the original cardboard, and the absorption time of a drop of water increases in approximately 1.3 times. *The article was prepared based on the proceedings of the 5th International Scientific and Technical Conference “The Issues in Mechanics of Pulp-and-Paper Materials” (Arkhangelsk, September 11–14, 2019).

Authors

S.I. Basirova, Postgraduate Student; ORCID: 0000-0001-5409-6704 
M.F. Galikhanov, Doctor of Engineering, Prof.; ResearcherID: P-2778-2015, ORCID: 0000-0001-5647-1854 
L.R. Galeeva, Candidate of Engineering; Assoc. Prof.;  ResearcherID: AAE-8448-2019, ORCID: 0000-0001-9004-4549 

Affiliation

Kazan National Research Technological University, ul. Karla Marksa, 68, Kazan, Republic of Tatarstan, 420015, Russian Federation; e-mail: basyrova.sara@mail.rumgalikhanov@yandex.ru

Keywords

cardboard, biodegradable polymers, composite materials, corona discharge, wetting, surface energy

For citation

Basirova S.I., Galikhanov M.F., Galeeva L.R. Surface Properties of Modified Cardboard. Lesnoy Zhurnal [Russian Forestry Journal], 2019, no. 6, pp. 233–240. DOI: 10.17238/ issn0536-1036.2019.6.233

References

  1. Vasil’yeva N.G. Biodegradable Polymers. Vestnik Kazanskogo tekhnologicheskogo universiteta [Herald of Kazan Technological University], 2013, no. 22, pp. 156–157.
  2. Gubanov L.N., Zvereva A.Yu., Zvereva V.I. Waste Recycling and Disposal of Packaging Materials. Nizhny Novgorod, NNGASU Publ., 2015. 121 p.
  3. Karpunin I.I., Kuz’mich V.V., Balabanova T.F. Classification of Biodegradable Polymers. Nauka i tekhnika [Science & Technique], 2015, no. 5, pp. 53–59.
  4. Musina L.R., Galikhanov M.F. The Effect of Corona Charging on Sorption and Filtering Properties of the Filter Paper. Khi iya Rastitel’nogo Syr’ya [Chemistry of plant raw material], 2017, no. 2, pp. 155–161. DOI: 10.14258/jcprm.2017021782
  5. Muslimova A.A., Viraneva A.P., Yovcheva T.A., Galikhanov M.F. Study of Electret Properties of Coronaelectrets Based on Polylactide. Vestnik Kazanskogo tekhnologicheskogo universiteta [Herald of Kazan Technological University], 2012, no. 10(15), pp. 128–130.
  6. Olkhov A.A., Iordanskiy A.L., Zaikov G.E. Bioplastics Based on Thermoplastics. Vestnik Volgogradskogo gosudarstvennogo universiteta. Seriya 10. Innovatsionnaya deyatel’nost’ [Science Journal of Volgograd State University. Technology and innovations], 2014, no. 3(10), pp. 84–92. DOI: 10.15688/jvolsu10.2014.3.10
  7. Starostina I.A., Stoyanov O.V. Acid-Base Interactions and Adhesion in MetalPolymer Systems. Kazan, KSTU Publ., 2010. 200 p.
  8. Flyate D.M. Paper Properties. Moscow, Lesnaya promyshlennost’ Publ., 1986. 680 p.
  9. Frostling H., Hoff A., Jacobsson S., Pfäffli P., Vainiotalo S., Zitting A. Analytical, Occupational and Toxicologic Aspects of the Degradation Products of Polypropylene Plastics. Scandinavian Journal of Work, Environment and Health, 1984, vol. 10(3), pp. 163–169. DOI: 10.5271/sjweh.2347
  10. Gencheva E.A., Yovcheva T.A., Marudova M.G., Viraneva A.P., Bodurov I.P., Mekishev G.A., Sainov S.H. Formation and Investigation of Corona Charged Films from Polylactic Acid. AIP Conference Proceedings, 2010, vol. 1203, iss. 1, pp. 495–500. DOI: 10.1063/1.3322494
  11. Gilmutdinova A.M., Galikhanov M.F., Nazarov N.G., Guzhova A.A., Khayrullin R.Z., Huziakhmetov R.H., Yovcheva T.A., Viraneva A.P. Increase of Value and Stability of Electret Characteristics of Polylactide by Magnesium Oxide Modification. AIP Conference Proceedings, 2017, vol. 1886, iss. 1, art. 020092. DOI: 10.1063/1.5002989
  12. Guzhova A.A., Galikhanov M.F., Gorokhovatsky Yu.A., Temnov D.E., Fomicheva E.E., Karulina E.A., Yovcheva T.A. Improvement of Polylactic Acid Electret Properties by Addition of Fine Barium Titanate. Journal of Electrostatics, 2016, vol. 79, pp. 1–6. DOI: 10.1016/j.elstat.2015.11.002
  13. Guzhova A., Yovcheva T., Viraneva A. Study of Polylactic Acid Corona Electrets. Bulgarian Chemical Communications, 2015, vol. 47, special iss. B, pp. 115–120.
  14. Kanie O., Ishikawa H., Ohta S., Kitaoka T., Tanaka H. Study on Characteristics of Paper Laminated with Biodegradable Plastics, (1): Burial Test in Soil. Journal of the Faculty Agriculture, Kyushu University, 2002, vol. 47, no. 1, pp. 89–96.
  15. Kanie O., Tanaka H., Mayumi A., Kitaoka T., Wariishi H. Composite Sheets with Biodegradable Polymers and Paper, the Effect of Paper Strengthening Agents on Strength Enhancement, and an Evaluation of Biodegradability. Journal of Applied Polymer Science, 2005, vol. 96, iss. 3, pp. 861–866. DOI: 10.1002/app.21523
  16. Kestelman V.N., Pinchuk L.S., Goldade V.A. Electrets in Engineering: Fundamentals and Applications. Norwell, Kluwer Academic Publishers, 2000. 281 p. DOI: 10.1007/978-1-4615-4455-5
  17. Mayumi A., Kanie O., Wariishi H., Kitaoka T., Tanaka H. Study on Characteristics of Paper Laminated with Biodegradable Plastics, (2): Analytical Characterization on Chemical and Biological Degradation. Journal of the Faculty Agriculture, Kyushu University, 2003, vol. 48, no. 1-2, pp. 85–95.
  18. Mayumi A., Kanie O., Wariishi H., Kitaoka T., Tanaka H. Study on Characteristics of Paper Laminated with Biodegradable Plastics, (3): Elemental and Morphological Analyses of Polylactide Deterioration. Journal of the Faculty Agriculture, Kyushu University, 2003, vol. 48, no. 1-2, pp. 87–106.
  19. Perepelkina A.A., Galikhanov M.F., Musina L.R. Effect of Unipolar Corona Discharges on Properties of Pulp-and-Paper Materials. Surface Engineering and Applied Electrochemistry, 2015, vol. 51, iss. 2, pp. 138–142. DOI: 10.3103/S1068375515020118
  20. Sessler G.H., Gerhard-Multhaupt R., Broadhurst M.G., Bauer S. Electrets. In 2 vol. Morgan Hill, CA, Laplacian Press, 1998/1999. 472/360 p.
  21. Viraneva A., Yovcheva T., Mekishev G. Pressure Effect on the Polymer Electret Films. IEEE Transactions on Dielectrics and Electrical Insulation, 2013, vol. 20, iss. 5, pp. 1882–1886. DOI: 10.1109/TDEI.2013.6633720
  22. Vlaeva I., Yovcheva T., Viraneva A., Kitova S., Exner G., Guzhova A., Galikhanov M. Contact Angle Analysis of Corona Treated Polypropylene Films. Journal of Physics: Conference Series, 2012, vol. 398, art. 012054. DOI: 10.1088/1742-6596/398/1/012054
  23. Yovcheva T. Corona Charging of Synthetic Polymers. New York, Nova Science Publishers, 2010. 60 p.

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