Detail publikačního výsledku
Optimization of photocurable zirconia suspensions for 3D printing
SOKOLA, P.; PTÁČEK, P.
Originální název
Optimization of photocurable zirconia suspensions for 3D printing
Anglický název
Optimization of photocurable zirconia suspensions for 3D printing
Druh
Abstrakt
Originální abstrakt
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.
Anglický abstrakt
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.
Klíčová slova
rheology, analytical centrifuge, new viscosity model
Klíčová slova v angličtině
rheology, analytical centrifuge, new viscosity model
Autoři
SOKOLA, P.; PTÁČEK, P.
Vydáno
10.02.2025
Nakladatel
Department of Glass and Ceramics, UCT Prague
Místo
Prague
Kniha
INORGANIC NON-METALLIC MATERIALS
Strany od
24
Strany do
24
Strany počet
1
URL
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"
}