Publication detail

An experimental study for determination of an application method and TiO2 powder to ensure the thinnest matte coating layer for 3D optical scanning

HRUBOŠ, D. KOUTECKÝ, T. PALOUŠEK, D.

Original Title

An experimental study for determination of an application method and TiO2 powder to ensure the thinnest matte coating layer for 3D optical scanning

English Title

An experimental study for determination of an application method and TiO2 powder to ensure the thinnest matte coating layer for 3D optical scanning

Type

journal article in Scopus

Language

en

Original Abstract

Matte coating used for optical 3D scanning was investigated. The goal was to produce thinnest possible layer with sufficient covering effect. Three different TiO2 powders and two spraying guns were tested. Spraying was affected by agglomeration and sedimentation of TiO2 primary particles. Coating layer with thickness of 200–600 nm was produced by both guns.

English abstract

Matte coating used for optical 3D scanning was investigated. The goal was to produce thinnest possible layer with sufficient covering effect. Three different TiO2 powders and two spraying guns were tested. Spraying was affected by agglomeration and sedimentation of TiO2 primary particles. Coating layer with thickness of 200–600 nm was produced by both guns.

Keywords

3D scanning; Atomization; Layer thickness; Matte coating; Particles size; Titanium dioxide

Released

17.12.2018

Publisher

Elsevier

Location

Amsterdam, Nizozemsko

Pages from

42

Pages to

49

Pages count

8

URL

BibTex


@article{BUT152113,
  author="David {Hruboš} and Tomáš {Koutecký} and David {Paloušek}",
  title="An experimental study for determination of an application method and TiO2 powder to ensure the thinnest matte coating layer for 3D optical scanning",
  annote="Matte coating used for optical 3D scanning was investigated. The goal was to produce thinnest possible layer with sufficient covering effect. Three different TiO2 powders and two spraying guns were tested. Spraying was affected by agglomeration and sedimentation of TiO2 primary particles. Coating layer with thickness of 200–600 nm was produced by both guns.",
  address="Elsevier",
  chapter="152113",
  doi="10.1016/j.measurement.2018.12.058",
  howpublished="online",
  institution="Elsevier",
  number="March 2019",
  volume="136",
  year="2018",
  month="december",
  pages="42--49",
  publisher="Elsevier",
  type="journal article in Scopus"
}