Strength of a Ceramic Sectored Flexural Test Specimen

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Volume 36, Issue 1 (January 2008)

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ISSN: 0090-3973
Page Count: 7

Strength of a Ceramic Sectored Flexural Test Specimen
Wereszczak, A. A.
Senior Staff Scientist and Post-BS Research Associate, Ceramic Science and Technology Group, Oak Ridge National Laboratory, TN

Duffy, S. F.

Baker, E. H.
Principal, Connecticut Reserve Technologies, Inc., OH

Swab, J. J.
Ceramic Engineer, Ordnance Materials Branch, U.S. Army Research Laboratory, MD

Champoux, G. J.

Abstract

A new test specimen, defined here as the “sectored flexural strength test specimen,” was developed to measure the strength of ceramic tubes specifically for circumstances when flaws located at the tube’s outer diameter are the strength-limiter when subjected to axial tension. The understanding of such strength-limitation is relevant when ceramic tubes are subjected to bending or when the internal temperature is hotter than the tube’s exterior (e.g., heat exchangers). The test specimen is both economically and statistically attractive because eight test specimens (eight in the case of this project—but the user is not necessarily limited to eight) were extracted out of each length of tube. An analytic expression for maximum (or failure) stress, and relationships portraying effective area and effective volume as a function of Weibull modulus were developed. Lastly, it was shown through the testing of two ceramics that the sectored flexural specimen was very effective; it produced failures caused by strength-limiting flaws located on the tube’s original outer diameter.

Keywords:
ceramics, strength, sectored flexural specimen, effective area, effective volume, finite-element analysis, Weibull distribution, fractography

Paper ID: JTE100823
DOI: 10.1520/JTE100823
ASTM International is a member of CrossRef.

Author Title Strength of a Ceramic Sectored Flexural Test Specimen Symposium , 0000-00-00 Committee C28

		Home Journals STPs Manuals Topics Subscriptions/Pricing Digital Library / Journals / Journal of Testing and Evaluation (JTE) / Citation Page Volume 36, Issue 1 (January 2008) Click here to download this paper now for $25 PDF (304K) View License Agreement ISSN: 0090-3973 Page Count: 7 Strength of a Ceramic Sectored Flexural Test Specimen Wereszczak, A. A. Senior Staff Scientist and Post-BS Research Associate, Ceramic Science and Technology Group, Oak Ridge National Laboratory, TN Duffy, S. F. Baker, E. H. Principal, Connecticut Reserve Technologies, Inc., OH Swab, J. J. Ceramic Engineer, Ordnance Materials Branch, U.S. Army Research Laboratory, MD Champoux, G. J. Abstract A new test specimen, defined here as the “sectored flexural strength test specimen,” was developed to measure the strength of ceramic tubes specifically for circumstances when flaws located at the tube’s outer diameter are the strength-limiter when subjected to axial tension. The understanding of such strength-limitation is relevant when ceramic tubes are subjected to bending or when the internal temperature is hotter than the tube’s exterior (e.g., heat exchangers). The test specimen is both economically and statistically attractive because eight test specimens (eight in the case of this project—but the user is not necessarily limited to eight) were extracted out of each length of tube. An analytic expression for maximum (or failure) stress, and relationships portraying effective area and effective volume as a function of Weibull modulus were developed. Lastly, it was shown through the testing of two ceramics that the sectored flexural specimen was very effective; it produced failures caused by strength-limiting flaws located on the tube’s original outer diameter. Keywords: ceramics, strength, sectored flexural specimen, effective area, effective volume, finite-element analysis, Weibull distribution, fractography Paper ID: JTE100823 DOI: 10.1520/JTE100823 ASTM International is a member of CrossRef. Author Title Strength of a Ceramic Sectored Flexural Test Specimen Symposium , 0000-00-00 Committee C28