Research of the microgeometrical parameters surface of the oxy-biodegradable films

Author(s) Collection number Pages Download abstract Download full text
Korotka V. O., Zatserkovna R. S. № 2 (51) 107-112 Image Image

The data of the microgeometrical parameters of the oxybiodegradable films surface research are presented in the article. The analysis of the topographies and profilograms of the samples surfaces allows to determine the maximum and minimum roughness value of the films and the ink images surface layer, as well as the highest and the average surface inequality. The impact of the additive biosupplements on the samples surface roughness is presented in the research. The changes in the films and the ink layers surfaces roughness have been analyzed. The shape and the size of the raster image points of the samples have been determined. The surface roughness of the films has been found to be different. The high smoothness is characteristic for the surface layer films based on low density polyethylene.

Keywords: oxybiodegradable film, microgeometrical parameters, microscopic irregularities, roughness, smoothness, ink layer, raster elements.


  • 1.Tkachuk M. P. (2000), Stencil printing: a manual, KhaHar, Kyyiv.
  • 2. Sorokyn B. A. (1999), Stencil printing: a manual, Moscow State University of Printing Press, Moscow.
  • 3. Beljaeva N. V. (1998), Technology of stencil printing on plane materials, Polygraphy, No.1, pp. 52–53.
  • 4. Suresh B., Maruthamuthu S., Kannan M., Chandramohan A. (2011), Mechanical and surface properties of low-density polyethylene film modified by photo-oxidation, Polymer Journal, Vol.1, pp. 398–406.
  • 5. Suresh B., Maruthamuthu S., Khare A., Palanisamy N., Muralidharan V. S., Ragunathan R., Kannan M., Navaneetha Pandiyaraj K. (2011), Influence of thermal oxidation on surface and thermo-mechanical properties of polyethylene, Journal of Polymer Research, Vol. 5, pp. 2175–2184.
  • 6. Troika Systems Limited. (2011), AniCam. 3D scanning microscope, available at: http://www.troika-systems.com/English/Troika.html (accessed 5 January 2015).
  • 7. Biblioteka GOSTov (2006), GOST 2789-73 Sherohovatost’ poverhnosti. Parametry i harakteristiki, available at: http://vsegost.com/Catalog/14/1419.shtml (accessed 15 January 2015).
  • 8. Opdahl A., Somorjai G.A. (2001), Stretched polymer surfaces: Atomic force microscopy measurement of the surface deformation and surface elastic properties of stretched polyethylene, Journal of Polymer Science, Part B: Polymer Physics, Vol. 39 (19), pp. 2263–2274.
  • 9. Korotka V. O., Zatserkovna R. S. (2014), Research on adheseve properties of oxybio­degradable films while obtaining stencil printing reprints, Qualiology of a book, No. 1 (25), pp. 28–32.