Transparent Tetragonal Yttria-Stabilized Zirconia Ceramic: Influence of Scattering Caused by Birefringence

journal article in Web of Science

English

The correlation between grain size, optical birefringence, and transparency is discussed for tetragonal zirconia (ZrO(2)) ceramics using the Mie, Rayleigh, and Rayleigh-Gans-Debye scattering models. Our results demonstrate that at the degree of mean birefringence in the range (0.03-0.04) expected for tetragonal ZrO(2), only the Mie theory provides reasonable results. At small particle size (< 50 nm) the more straightforward Rayleigh approximation correlates with the Mie model. A real in-line transmission of similar to 50% at visible light and 1 mm thickness is expected at a mean grain size < 40 nm and similar to 70% at a mean grain size < 20 nm. At an infrared (IR) wavelength of 5 um there should not be any scattering caused by birefringence for grain sizes < 200 nm. Our simulations were validated with experimental data for tetragonal ZrO(2) (3 mol% Y(2)O(3)) ceramics made from a powder with an initial particle size of similar to 10 nm by sintering in air and using hot-isostatic pressing. The maximum in-line transmission of about 77% was observed at IR wavelengths of 3-5 um

Light scattering ; ZrO2; Y2O3; Microstructure; Porosity

KLIMKE, J.; TRUNEC, M.; KRELL, A.

2011

1. 6. 2011

Wiley-Blackwell

COMMERCE PLACE, 350 MAIN ST, MALDEN 02148, MA USA

0002-7820

Journal of the American Ceramic Society

94

6

United States of America

1850

1858

9