Fracture of Alumina with Controlled Pores |
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| Authors: | André Zimmermann,Mark Hoffman,Brian D. Flinn,Rajendra K. Bordia,Tze-Jer Chuang,Edwin R. Fuller Jr., Jü rgen Rö del |
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| Affiliation: | Department of Materials Science, Ceramics Group, Technical University, Darmstadt, D-64287 Darmstadt, Germany;;Materials Science and Engineering, University of Washington, Seattle, Washington 98195;and Ceramics Division,;National Institute of Standards and Technology (NIST), Gaithersburg, Maryland 20899 |
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| Abstract: | Fracture from artificial spherical pores, as well as natural defects, in alumina in a grain-size range of 0.8-9.2 µm has been studied experimentally and compared with a fracture-mechanics model. Results from fracture-strength measurements have been combined with detailed fractographic analysis to elucidate the ensuing crack instability. Two existing models of possible crack configurations have been extended and contrasted. The semicircular crack as well as the circumferential crack both are described as flaws in the stress-concentrating field of a spherical pore. Surface correction terms afforded by the presence of the pore have been incorporated. A comparative computation shows that fracture occurs more likely from the semicircular crack configuration than the circumferential crack configuration. |
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