Hostname: page-component-7479d7b7d-q6k6v Total loading time: 0 Render date: 2024-07-12T04:10:25.999Z Has data issue: false hasContentIssue false
  • English
  • Français

Use of cylindrical samples for ceramics strength measurements

Published online by Cambridge University Press:  17 November 2006

Jean-Claude Glandus ,
Joseph Absi ,
Michel Saliceto  and
Philippe Fougerolle
Jean-Claude Glandus
Affiliation:
G.E.M.H., ENSCI, 47 avenue Albert Thomas, 87065 Limoges, France
Joseph Absi
Affiliation:
G.E.M.H., ENSCI, 47 avenue Albert Thomas, 87065 Limoges, France
Michel Saliceto
Affiliation:
CEA DAM, Centre d'Études du Ripault, BP 16, 37260 Monts, France
Philippe Fougerolle
Affiliation:
CEA DAM, Centre d'Études du Ripault, BP 16, 37260 Monts, France
Get access

Abstract

In spite of his great applied interest, the tensile strength of brittle materials, and chiefly that of ceramics, is difficult to measure directly by classical tensile tests. This results from the difficulties induced both by the samples machining and their grip on the testing machine. So, it is common to perform indirect determinations on the basis of strength values obtained in 3 or 4 points bending tests on prismatic samples. In the case of massive or hollow cylindrical samples, the diametral compression tests seem to be the best measurement technique, but these tests require refined experimental approach to lead to significant results. In order to characterise these care, two original experimental devices, one dedicated to massive cylinders, the other to hollow cylinders, have been built. The comparison of results thus obtained with those given by the classical bending tests permits to specify the validity and the limits of the techniques here developed.

Keywords

Ceramicstensite strengthdiameteral compressionfinite element methodCéramiquerésistance à la rupture en tractioncompression diamétraleméthode des éléments finis
Type
Research Article
Information
Mechanics & Industry , Volume 7 , Issue 3 , May 2006 , pp. 241 - 249
Copyright
© AFM, EDP Sciences, 2006

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Ayal de S. Jayatilaka, Fracture of Engineering Brittle Materials, Appl. Sc. Pub. London (1979) 117–134
J.C. Glandus, Meaning of the Biaxial Flexure Tests of Discs for Strength Measurements, J. Phys. Col. C1 (47) (1986) 595–600
Jaeger, J.C., Hoskins, E.R., Rock Failure under the Confined Brazilian Test, J. Geophys. Res. 71 (1966) 26512659 CrossRef
Marion, R.H., Keith Johnstone, J., Parametric St, Audy of the Diametral Compression Test for Ceramics, Am. Ceram. Bul. 56 (1977) 9981002
Hondros, G., The Evaluation of Poisson's Ratio and the Modulus of Materials of Low Tensile Resistance by the Brazilian Test with Particular Reference to Concrete, J. Appl. Sci. 10 (1959) 243268
Vardar, Ö., Finnie, I., Analysis, An of the Brazilian disk fracture test using the Weibull Probabilistic treatment of brittle strength, Int. J. Fract. 11 (1975) 495508
G. Taguchi, Y. Wu, Introduction to Off-line Quality Control. Central Japan Quality Control Association, 1985, 4-10-27 Meieki Nakamura-ku Nagaya
J.P. Brousse, Détermination des propriétés de rupture fragile des matériaux céramiques, Application au cas de l'alumine, CNAM Report, University of Limoges, 1981
Weil, N.A., Daniel, I.M., Analysis of Fracture Probabilities in non Uniformly Stressed Brittle Materials J. Am. Ceram. Soc. 47 (1964) 268274
W.A. Nash, Theory and Problems of Strength of Materials, Schaum's outline, Mac Graw-Hill Inc., 1994
B. Villechaise, Étude bidimensionnelle des contacts larges entre domaines élastiques finis, Thesis, I.N.S.A. Lyon, 1981
J.C. Glandus, Rupture fragile et résistance aux chocs thermiques de céramiques à usage mécanique, Thesis, University of Limoges, 1981