Paper and plastic roughness properties after surface refinement processes

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Published: Mar 10, 2018
DOI: https://doi.org/10.26628/wtr.v90i3.870
Keywords:
water-based inks, 3D optical microscope, varnishes, surface roughness

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Marta Gajadhur
Warsaw University of Technology

Abstract

The objective of the research is to analyse the influence of the refinement processes on the paper and foil surface properties. The surface properties of unprinted, printed, printed and varnished papers were evaluated with the 3D optical micro- scope. The surface roughness coefficients of different ma- terials were calculated in the studies. It was observed that the varnishing process significantly influences the surface roughness properties.

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How to Cite
[1]
M. Gajadhur, “Paper and plastic roughness properties after surface refinement processes”, Weld. Tech. Rev., vol. 90, no. 3, Mar. 2018.
Issue
Vol. 90 No. 3 (2018): WELDING TECHNOLOGY REVIEW
Section
Original Articles

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References

Gajadhur M., Steć A.: Improvement of abrasion resistance by overvarnishing in the case of water-based exographic printing, Journal of Print and Media Technology Research, 2016, 5(1), pp. 15-26.

Gajadhur M., Steć A.: Wpływ lakierowania na właściwości zadrukowanych podłoży papierowych, Przegląd Papierniczy, Warszawa 2018, 74(2), s. 119-23.

Hartus T., Gane P.A.C.: Relating ink solvent-coating component thermal properties to smearing and development of abrasion resistance in ink jet printing, Nordic Pulp and Paper Research Journal, 2012, 27(1), pp. 63-78.

Mesic B., Lestelius M., Engström G.: Printability of PE-coated paperboard with water-borne exography: Effects of corona treatment and surfac- tants addition. Pulp and Paper Canada. 2005, 106(11), pp. 36-41.

Mesic B., Engström G., Lestelius M.: Water-borne and solvent-based exographic inks-in uence on uncovered area and ink leveling on PE-coated paperboard. 59th annual technical conference on technical association of the graphic arts, TAGA, march 18, 2007 march 21, 2007, Pittsburgh, PA, United States: Technical Association of the Graphic Arts, 2007, pp. 631-648.

Rentzhog M., Fogden A.: Print quality and resistance for water-based exography on polymer-coated boards: Dependence on ink formulation and substrate pretreatment, Progress in Organic Coatings, 2006, 57(3), pp. 183-94.