Publication result detail

Optimization of photocurable zirconia suspensions for 3D printing

SOKOLA, P.; PTÁČEK, P.

Original Title

Optimization of photocurable zirconia suspensions for 3D printing

English Title

Optimization of photocurable zirconia suspensions for 3D printing

Type

Abstract

Original Abstract

DLP (Digital Light Processing) is a rapidly developing technology for 3D printing of ceramic materials. Traditionally, the suspension consists of a ceramic powder, a photocurable resin and a dispersant (which prevents particle agglomeration because it acts as a surfactant). A wide range of uses of 3D printed zirconia includes, for example, fuel cells or molar dental replacements.

English abstract

DLP (Digital Light Processing) is a rapidly developing technology for 3D printing of ceramic materials. Traditionally, the suspension consists of a ceramic powder, a photocurable resin and a dispersant (which prevents particle agglomeration because it acts as a surfactant). A wide range of uses of 3D printed zirconia includes, for example, fuel cells or molar dental replacements.

Keywords

rheology, analytical centrifuge, new viscosity model

Key words in English

rheology, analytical centrifuge, new viscosity model

Authors

SOKOLA, P.; PTÁČEK, P.

Released

10.02.2025

Publisher

Department of Glass and Ceramics, UCT Prague

Location

Prague

Book

INORGANIC NON-METALLIC MATERIALS

Pages from

24

Pages to

24

Pages count

1

URL

https://sil.vscht.cz/files/uzel/0073279/0009~~C07KL8o7vDZbwdHPV8HIwMgUAA.pdf?redirected

BibTex

@misc{BUT196788,
  author="Patrik {Sokola} and Petr {Ptáček}",
  title="Optimization of photocurable zirconia suspensions for 3D printing",
  booktitle="INORGANIC NON-METALLIC MATERIALS",
  year="2025",
  edition="1",
  pages="24--24",
  publisher="Department of Glass and Ceramics, UCT Prague",
  address="Prague",
  url="https://sil.vscht.cz/files/uzel/0073279/0009~~C07KL8o7vDZbwdHPV8HIwMgUAA.pdf?redirected",
  note="Abstract"
}