Formation and Biodegradation of Polyethylene-based Electret Films

V. A. Goldade; L. S. Pinchuk; O. A. Ermolovich; E. P. Goncharova; V. E. Sytsko

doi:10.3139/217.2429

Artikel

Formation and Biodegradation of Polyethylene-based Electret Films

V. A. Goldade , L. S. Pinchuk , O. A. Ermolovich , E. P. Goncharova und V. E. Sytsko

Veröffentlicht/Copyright: 6. April 2013

Veröffentlicht von

Veröffentlichen auch Sie bei De Gruyter Brill

Manuskript einreichen Informationen für Autor*innen

Aus der Zeitschrift International Polymer Processing Band 26 Heft 2

Abstract

Intensive development of packing industry in response to the needs of modern society has aggravated the global situation with recovery of polymer wastes. One of the trends that may alleviate this problem is manufacture of ecologically friendly biodegradable polymeric films. Such films undergo accelerated destruction after burial under the action of soil microorganisms. The factor that speeds up biodestruction of the films in soil is the electric field of their own. The available experimental data have proved that the kinetics of biodestruction of polyethylene films, including starch-filled and inorganic salt-filled ones, alters significantly after such film transfer to electret state.

^∗ Mail address: Victor A. Goldade, V. A. Belyi Metal-Polymer Research Institute of NASB, 32a Kirov Street, 246050 Gomel, Belarus. E-mail: victor.goldade@gmail.com

References

Abraham, J. D., U. S. Patent 8 901 006 (1989)Suche in Google Scholar

Arvanitoyannis, I., et al., “Biodegradable Films Made from Low Density Polyethylene, Rice Starch and Potato Starch for Food Packaging Applications”, Carbohydr. Polym., 36, 89–104(1998), DOI: 10.1016/S0144-8617(98)00016-2Suche in Google Scholar

Baldev, R., et al., “Structure-property Relation in Low-density Polyethylene-starch Immiscible Blends”, Eur. Polym. J., 37, 943–948(2001), DOI: 10.1016/S0014-3057(00)00193-2Suche in Google Scholar

Bannyi, V. A., et al., “Chitin as a Multifunctional Filler for Composite Polymer Materials”, Materials, Technologies, Tools, 2, 59–63(2005)Suche in Google Scholar

Bugorkova, V. S., et al., “Major Trends in Development of the Photo- and Biodegradable Polymer Materials”, Plastic Masses, 9, 48–51(1991)Suche in Google Scholar

Chandra, R., Rustgi, R., “Biodegradation of Maleated Linear Low-density Polyethylene and Starch Blends”, Polym. Degrad. Stab., 56, 185–202(1997), DOI: 10.1016/S0141-3910(96)00212-1Suche in Google Scholar

Dechant, J., et al.: Ultrarotspektroskopische Untersuchungen an Polymeren, Akademie-Verlag, Berlin(1972)10.1515/9783112480885Suche in Google Scholar

Degtyareva, S. N., et al., “Self-destructive Polymer Films”, Plastic Masses, 10, 12–16(1999)Suche in Google Scholar

Dmitriev, S. N., “Biodegradable Polymer Composite Materials”, Plastic Masses, 8, 53–55(2008)Suche in Google Scholar

Fomin, V. A., Guzeev, V. V., “Biodegradable Polymers: State of the Art and Promises”, Plastic Masses, 2, 42–48(2001)Suche in Google Scholar

Gogotov, I. N., “Biodegradable Polymers Based on Polypropylene and Composite Additives”, Plastic Masses, 5, 42–48(2009)Suche in Google Scholar

Goncharova, E. P., et al., “Modern Trends in Creation of Biodegradable Polymer Materials”, Materials Science Transections, 9, 37–44(2006)Suche in Google Scholar

Haux, V., “Polymer Packing Prospects and New Approaches for Waste Packing Utilization”, Polymer Materials: Products, Equipment, Technology, 4, 12–15(2008)Suche in Google Scholar

Hironari, S., Morimas, O., U. S. Patent 5 321 088 (1994)Suche in Google Scholar

Kazuya, S., Yoko, F., Japan Patent 5 156 010 (1993)10.5873/nihonnoshingaku.1993.156Suche in Google Scholar

Kestelman, V., et al.: Electrets in Engineering: Fundamentals and Applications, Kluwer Academic, Boston(2000)10.1007/978-1-4615-4455-5Suche in Google Scholar

Korotky, M. V., “Modification of Polymeric Biomass Carriers in Electric and Magnetic Fields for Aerobic Biofilters”, PhD Dissert., Belarus State Technological. Univ., Minsk (2005)Suche in Google Scholar

Korotky, M. V., et al., “Polymer Carriers of Microorganisms as a Source of Biogenic Elements”, Materials Science Transactions, 11, 52–56(2004)Suche in Google Scholar

Larionov, V. G., “Self-decomposable Polymer Materials”, Plastic Masses, 4, 36–39(1993)Suche in Google Scholar

Leaversuch, R. D., Natural PLA Polymer Offers New Options in PackagingModern Plastic Int., 3, 32–34(2000)Suche in Google Scholar

Loshadkin, D. V., “Biodegradable Plastics: Types of Materials, Major Properties and Vistas in Commercializing”, Plastic Masses, 7, 41–44(2002)Suche in Google Scholar

Marchessault, R. H., “Tender Morsels for Bacteria. Resent Developments in Microbial Polyesters”, Trends in Polymer Sci., 4, 163–168(1996)Suche in Google Scholar

Nakayama, A., et al., “Synthesis and Biodegradability of Novel Copolyesters Containing G-Butyrolactone Units”, Polymer, 39, 1213–1222(1998), DOI: 10.1016/S0032-3861(97)00401-1Suche in Google Scholar

Netravali, A. N., Chabba, S., “Composites Get Greener”, Materials Today, 4, 22–29(2003), DOI: 10.1016/S1369-7021(03)00427-9Suche in Google Scholar

Petov, N. A., “Assessment of Polymer Waste Accumulation in Russia and Methods of its Recycling”, Polymer Materials: Products, Equipment, Technology, 4, 4–7(2008)Suche in Google Scholar

Pinchuk, L. S., et al., “Spontaneous Polarization of Polymer Blends”, Polymer, 44, 5031–5037(2003), DOI: 10.1016/S0032-3861(03)00375-6Suche in Google Scholar

Pinchuk, L. S., et al., “Electret-thermal Analysis of Blood”, Medical Engineering and Physics, 24, 361–364(2002), DOI: 10.1016/S1350-4533(02)00029-2Suche in Google Scholar

Pinchuk, L. S., et al., “Electret-thermal Analysis of Polymer Blends”, Int. Polym. Proc., 18, 151–155(2003)Suche in Google Scholar

Pinchuk, L. S., et al., “Electret-thermal Analysis to Assess Biodegradation of Polymer Composites”, Int. Biodeterior. Biodegrad., 54, 13–18(2004), PMCid:373060, DOI: 10.1016/j.ibiod.2003.11.005Suche in Google Scholar

Pinchuk, L. S., et al., “On the charge State of Melt-Blown Polymer Materials”, Int. Polym. Proc., 13, 67–70(1998)Suche in Google Scholar

Psomiadou, E., et al., “Biodegradable Films Made from Low Density Polyethylene, Wheat Starch and Soluble Starch for Food Packaging Applications”, Carbohydr. Polym., 33, 227–242(1997), DOI: 10.1016/S0144-8617(97)00032-5Suche in Google Scholar

Rogovina, S. Z., et al., “A Study of Cellulose-chitosan Blends Obtained under Shear Strain”, High-Mol. Comp. Ser. A, 42, 10–15(2000)Suche in Google Scholar

Rybkina, S. P., et al., “Main Directions in the Field of Biodegradable Thermoplastics creation”, Plastic Masses, 10, 47–54(2008)Suche in Google Scholar

Scott, G, “Abiotic Control of Polymer Biodegradation”, Trends Polym. Sci., 5, No 11, 361–368(1997)Suche in Google Scholar

Sessler, G. M. (Ed.): Electrets, 2^nd Enlarged Edition, Springer, Berlin(1987)10.1007/3-540-17335-8Suche in Google Scholar

Shah, P. B., et al., “Environmentally Degradable Starch Filled Low Density Polyethylene”, Polym. Degrad. Stab., 47, 165–173(1995), DOI: 10.1016/0141-3910(94)00088-PSuche in Google Scholar

Suvorova, A. I., et al., “Biodegradable Starch-based Polymer Materials”, Uspekhi Khimii (Russian Chemical Reviews), 5, 494–503(2000)Suche in Google Scholar

Suvorova, A. I., et al., “Thermodynamic compatibility of starch and carboxymethyl cellulose sodium”, High-Mol. Comp. Ser. A, 44, 98–103(2002)Suche in Google Scholar

Suvorova, A. I., et al., “Viscosity of Copoly(amides) and Starch Blends”, High-Mol. Comp. Ser. A., 45, 797–803(2003)Suche in Google Scholar

Sychugova, S. V., et al., “The Role of Starch Component in Destruction Processes of SEVA-TPC Mixtures under the Effect of Mold Fungi”, Plastic Masses, 9, 29–32(2004)Suche in Google Scholar

Tarutina, L. I., Pozdnyakova, F. O.: Spectral Analysis of Polymers, Khimiya, Leningrad(1986)Suche in Google Scholar

Toensmeier, P. A., “Biodegradable Polymers Make Small-scale Return”, Modern Plastics Int., 4, 19–21(1995)Suche in Google Scholar

Toensmeier, P. A., “Biodegradable Resins”, Modern Plastic Int., 3, 74(1994)Suche in Google Scholar

Toshiki, I., et al., Japan Patent 6 200 016 (1994)Suche in Google Scholar

Tyukova, I. S., Suvorova, A. I., “Diffusion-and-kinetic Properties of Biodegradable Starch Mixtures with Cellulose Derivatives”, 9^th Conf., Destruction and Stabilization of Polymers, Moscow, 204–205(2001)Suche in Google Scholar

Vasnev, V. A., “Biodegradable Polymers”, High-Mol. Comp. Ser. B, 39, 2073–2086(1997)Suche in Google Scholar

Vlasova, G. M., et al., “Biodegradable Films Based on Thermoplastics”, Belarus National Acad. Sci., 44, 100–103(2000)Suche in Google Scholar

Williams, J. R., “Life Cycle Analysis of Bioplastics”, 9^th Annual Bioplastics Conf. “Bioplastics-2007”, Köln, 20–25(2007)Suche in Google Scholar

Zamyslov, E., Peregrine, E., “Additives for Biodegradability”. Intern. Magazine of Plastics Industry, No, 3, 30–31(2009)Suche in Google Scholar

Zuchowska, D., et al., “Structure and Properties of Degradable Polyolefin-starch Blends”, Polym. Degrad. Stab., 60, 471–480(1998), DOI: 10.1016/S0141-3910(97)00110-9Suche in Google Scholar

Received: 2010-10-04

Accepted: 2011-01-04

Published Online: 2013-04-06

Published in Print: 2011-05-01

Sie haben derzeit keinen Zugang zu diesem Inhalt.

Artikel in diesem Heft

https://doi.org/10.3139/217.2429