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On the effect of sampling volume on the microscopic cleavage fracture stress

โœ Scribed by Tsann Lin; R.O. Ritchie

Publisher
Elsevier Science
Year
1988
Tongue
English
Weight
580 KB
Volume
29
Category
Article
ISSN
0013-7944

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โœฆ Synopsis

Reported observations of an experimental variation in the microscopic fracture stress for transgranular cleavage (0:) with specimen geometry and size are quantitatively examined in terms of a weakest-link statistical model for brittle fracture, wherein failure coincides with the critical propagation of a particle microcrack into the matrix. By analysing the onset of fracture in the 'sharp-crack' (K,,) specimen, the 'rounded-notch' (Charpy) specimen, and the uniaxial tensile specimen, it is shown that values of of are reduced progressively in the 'sharp-crack', notched and unnotched geometries and with increasing specimen size, consistent with an increase in statistical sampling volume. Quantitative predictions for the magnitude of this variation are given for a low strength steel.

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Fracture toughness testing in the transition region often causes ductile tearing to precede cleavage fracture. The effect of ductile tearing on the fracture probability has in recent years become a subject of great interest. Briickner and Munz have developed a Weibull statistics based model to descr