Special coatings and treatments Paper, paperboard and polymer structures have been successfully applied in several fields, especially in packaging industry. However, making this kind of packaging product requires materials with special surface properties. For instance, it is often difficult to achieve sufficient adhesion between surfaces of polymer and paper or paperboard, whereas the adhesion of
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Special coatings and treatments
After reading this article you will..
- know the basic conventional and novel surface treatment methods to improve surface properties or to create other functionalities on various surfaces
- know various conventional and novel coating methods to improve surface or barrier properties or to create other functional layers on multilayer structures
- know the basic targets of these methods
Natural fibre products
- Printing and writing papers
- Paperboards
- Tissue
- Nonwovens
- Speciality papers
- Production of paper and board
- Stock and water systems
- Web forming
- Wet pressing
- Drying of natural fibre products
- Surface sizing
- Pigment coating
- Finishing
- Converting of paper and board
- Papermaking chemistry
- Paper physics
- Paper structure
- Fibres and bonds
- Paper surface and thermal, electrical and friction characteristics
- Paper optics
- In-plane tensile properties
- Structural mechanics of paper and board
- Moisture transport
- Rheology
- Dimensional stability
- Printing
Authors & references
Edited by:
Dr. Johanna Lahti, Tampere University
Based on: Tuominen, M. and Lahtinen, K. Conventional and novel coating methods (Chapter 5).In: Kuusipalo, J. (ed), Paper and Paperboard Converting, (Book 12), Papermaking Science and Technology. 2nd edition. Jyväskylä, 2008, Finnish Paper Engineers’ Association/Paperi ja Puu Oy. pp. 186 – 208. More literature references can also be found in this chapter.
and
Tuominen, M., Vähä-Nissi, M. and Kuusipalo, J. Wetting and adhesion (Chapter 2). In: Kuusipalo, J. (ed), Paper and Paperboard Converting, (Book 12), Papermaking Science and Technology. 2nd edition. Jyväskylä, 2008, Finnish Paper Engineers’ Association/Paperi ja Puu Oy. pp. 13 – 57. More literature references can also be found in this chapter.
References:
- Wu, S. 1982. Polymer Interface and Adhesion, Dekker, London.
- Chan, C.-M. 1994. Polymer surface modification and characterization, Carl Hanser Verlag, Munich Vienna New York, pp. 35–76.
- Tuominen, M. 2007. Adhesion In PE-LD Coated Paperboard. Licentiate thesis, Tampere University of Technology, Tampere, Finland. pp. 87.
- Brewis, D. M. 1982. Surface analysis and pretreatment of plastics and metals. Applied Science, Publishers Ltd., Essex, 268 p.
- Henry, B. M., Innovations in Barrier Packaging Conference, TAPPI, Atlanta, 2006.
- Protecting an atomic layer deposited aluminum oxide barrier coating on a flexible polymer substrate, Johansson, P., Teisala, H., Lahtinen, K. & Kuusipalo, J., Jan 2017, In : Thin Solid Films. 621, p. 151-155
- Influence of substrate contamination, web handling, and pretreatments on the barrier performance of aluminum oxide atomic layer-deposited BOPP film, Lahtinen, K., Lahti, J., Johansson, P., Seppänen, T. & Cameron, D. C., 2014, In : Journal of Coatings Technology and Research. 11, 3, p. 1-10 10 p.
- UV protective zinc oxide coating for biaxially oriented polypropylene packaging film by atomic layer deposition, Lahtinen, K., Kääriäinen, T., Johansson, P., Kotkamo, S., Maydannik, P., Seppänen, T., Kuusipalo, J. & Cameron, D. D., 2014, In : Thin Solid Films. 570, p. 33-37 5 p.
- Protecting BOPP film from UV degradation with an atomic layer deposited titanium oxide surface coating, Lahtinen, K., Maydannik, P., Seppänen, T., Cameron, D., Johansson, P., Kotkamo, S. & Kuusipalo, J., 2013, In : Applied Surface Science. 282, p. 506-511 12 p.
- Atomic layer deposition on polymer based flexible packaging materials: Growth characteristics and diffusion barrier properties, Kääriäinen, T. O., Maydannik, P., Cameron, D. C., Lahtinen, K., Johansson, P. & Kuusipalo, J., 2011, In : Thin Solid Films. 519, 10, p. 3146-3154
- Nanomend. Enhanced in-line detection, cleaning and repair of nano-scale defects. [Online] Available from: http://nanomend.eu/ [Accessed 29th September 2020].
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This page has been updated 15.11.2020
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