Publication detail

Crack propagation in layered Al2O3/ZrO2 composites prepared by electrophoretic deposition

HADRABA, H. KLIMEŠ, J. MACA, K.

Original Title

Crack propagation in layered Al2O3/ZrO2 composites prepared by electrophoretic deposition

Type

journal article in Web of Science

Language

English

Original Abstract

Crack propagation through layered Al2O3/ZrO2 composites was studied. The specimens were prepared via electrophoretic deposition of alumina and zirconia powders from suspensions with monochloroacetic acid and isopropanol. The kinetics of electrophoretic deposition could be described fully if the electrophoretic mobility and conductivity of suspensions were known. The conductivity of suspensions increased in the course of deposition. Adjusting to properly controlled kinetics of deposition and sintering, deposits were prepared with strongly bonded layers of different pre-defined thicknesses and, consequently, with different magnitudes of residual stress. Cracks, produced by an indentation technique, propagated askew towards layer interfaces deflected towards the interface in the Al2O3 layers and away from the interface in the ZrO2 layers. Changes in the direction of crack propagation were described for the whole range of angles of incidence (0 - 90deg). The biggest change in the crack propagation was observed for the angle of incidence 45deg and was ca 15deg, irrespective of the magnitude of residual stress in the layers.

Keywords

electrophoretic deposition; alumina; zirconia; layered composite; crack deflection

Authors

HADRABA, H.; KLIMEŠ, J.; MACA, K.

RIV year

2007

Released

25. 4. 2007

Publisher

Springer

Location

233 SPRING STREET, NEW YORK, NY 10013 USA

ISBN

0022-2461

Periodical

Journal of Materials Science

Year of study

42

Number

15

State

United States of America

Pages from

6404

Pages to

6411

Pages count

8

BibTex

@article{BUT44026,
  author="Hynek {Hadraba} and Jan {Klimeš} and Karel {Maca}",
  title="Crack propagation in layered Al2O3/ZrO2 composites prepared by electrophoretic deposition",
  journal="Journal of Materials Science",
  year="2007",
  volume="42",
  number="15",
  pages="6404--6411",
  issn="0022-2461"
}