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Title: Behavior of cyclic fatigue cracks in monolithic silicon nitride

Journal Article · · Journal of the American Ceramic Society
;  [1];  [2]
  1. Univ. of California, Berkeley, CA (United States). Dept. of Materials Science and Mineral Engineering
  2. Stanford Univ., CA (United States). Dept. of Materials Science and Engineering
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Cyclic fatigue-crack propagation behavior in monolithic silicon nitride is characterized in light of current fatigue-crack growth models for ceramics toughened by grain-bridging mechanisms, with specific emphasis on the role of load ratio. Such models are based on diminished crack-tip shielding in the crack wave under cyclic loads due to frictional-wear degradation of the grain-bridging zone. The notion of cyclic crack growth promoted by diminished shielding is seen to be consistent with measured (long-crack) growth rates, fractography, in situ crack-profile analyses, and measurements of back-face strain compliance. Growth rates are found to display a much larger dependence on the maximum applied stress intensity, K{sub max}, than on the applied stress-intensity range, {Delta}K, with behavior described by the relationship da/dN {proportional_to} K{sub max}{sup 29} {Delta}K. Fatigue thresholds similarly exhibit a marked dependence on the load ratio, R = K{sub min}/K{sub max}; such effects are shown to be inconsistent with traditional models of fatigue-crack closure. In particular, when characterized in terms of K{sub max}, growth rates below {approximately} 10{sup {minus}9} m/cycle exhibit an inverse dependence on load ratio, an observation which is consistent with the grain-bridging phenomenon; specifically, with increasing R, the sliding distance between the grain bridges is decreased, leading to less frictional wear, and hence less degradation in shielding, per loading cycle. The microstructural origins of such behavior are discussed.

Sponsoring Organization:
USDOE
OSTI ID:
116082
Journal Information:
Journal of the American Ceramic Society, Vol. 78, Issue 9; Other Information: PBD: Sep 1995
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
SILICON NITRIDES
FATIGUE
ALUMINIUM OXIDES
YTTRIUM OXIDES
CRACK PROPAGATION
MATHEMATICAL MODELS
CRACKS
FRACTURE MECHANICS
STRESS INTENSITY FACTORS
FRICTION
MICROSTRUCTURE
MECHANICAL PROPERTIES