Inkjet technology for ceramic products. Influence of some process variables on ink penetration
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Other documents of the author: José Luis, Amorós Albaro; Moreno Berto, Arnaldo Vicente; Blasco Roca, Encarna; Pérez, Joaquín Javier; Navarro, Sandra; Reverter, Sandra
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comunitat-uji-handle2:10234/176601
comunitat-uji-handle3:10234/176618
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Title
Inkjet technology for ceramic products. Influence of some process variables on ink penetrationAuthor (s)
Date
2019-07-27Publisher
Wiley; The American Ceramic SocietyBibliographic citation
AMORÓS, Jose Luis, et al. Inkjet technology for ceramic products. Influence of some process variables on ink penetration. International Journal of Applied Ceramic Technology, 2019, 16.6: 2153-2160.Type
info:eu-repo/semantics/articlePublisher version
https://ceramics.onlinelibrary.wiley.com/doi/full/10.1111/ijac.13342Version
info:eu-repo/semantics/acceptedVersionSubject
Abstract
Inkjet technology has become very popular in recent years and is nowadays widely used for
decorating ceramic products. This has led to in-depth study of the operating principles and
process variables involved. These ... [+]
Inkjet technology has become very popular in recent years and is nowadays widely used for
decorating ceramic products. This has led to in-depth study of the operating principles and
process variables involved. These notably influence the properties of the deposited ink layers,
as do the physicochemical properties of the applied inks and of the glazes on which the inks are
deposited. The problems associated with these factors are further heightened when inks with
complex formulations designed to obtain special effects and specific surface properties are
used. This study examines the characteristics of the interface that developed on applying an ink
on a certain type of glaze, as well as the surface properties of the final product. The relationship
of the amount of ink applied per unit area and the particle size distribution of the glaze on which
it was deposited to ink penetration into the glaze layer was also investigated. The resulting
microstructures were observed by SEM, while the variation of glaze layer composition with
distance to the surface was determined by SEM-EDS. The results obtained were successfully
correlated with the porous texture of the unfired glaze (determined by SEM and mercury
porosimetry) and with unfired glaze particle size distribution. [-]
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