2015
DOI: 10.1016/j.actamat.2015.01.008
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Grain rotation and translation contribute substantially to creep of a zirconium diboride silicon carbide composite

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Cited by 16 publications
(7 citation statements)
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References 47 publications
(107 reference statements)
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“…Furthermore, the stress exponent suggests further contribution from an independent diffusional creep mechanism in pure compression. Therefore, we expect grain boundary sliding and diffusional creep to dominate the deformation in compression creep of ZrB 2 -20% SiC at 1800 ℃ , consistent with the flexure findings [22,23]. The dislocation accommodated sliding attributed to the present material should hold for both compressive and tensile components of the deformation as tensile and compressive regions in four-point bending samples did not show substantial microstructural differences at 1800 ℃ with higher cavitation observed along the tensile surface [18].…”
Section: Discussionsupporting
confidence: 64%
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“…Furthermore, the stress exponent suggests further contribution from an independent diffusional creep mechanism in pure compression. Therefore, we expect grain boundary sliding and diffusional creep to dominate the deformation in compression creep of ZrB 2 -20% SiC at 1800 ℃ , consistent with the flexure findings [22,23]. The dislocation accommodated sliding attributed to the present material should hold for both compressive and tensile components of the deformation as tensile and compressive regions in four-point bending samples did not show substantial microstructural differences at 1800 ℃ with higher cavitation observed along the tensile surface [18].…”
Section: Discussionsupporting
confidence: 64%
“…Grain boundary sliding was manifested as grain rotations and translations. Additionally, quantification of geometrically necessary dislocations using electron back scatter diffraction techniques revealed increased activity near the grain boundaries to achieve the necessary accommodation for the sliding grains [22,23]. Presence of limited cavitation in the compressive microstructures indicates grain boundary sliding mechanism operating in the present specimens.…”
Section: Discussionmentioning
confidence: 94%
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