U. Messerschmidt scite author profile

Polydomain tetragonal (t) zirconia was deformed in compression along a ͗100͘ orientation at various temperatures between 500°and 1400°C. The stress-strain curves showed a plateau corresponding to ferroelastic deformation, followed by plastic deformation at a higher yield stress level. In both ranges, the strain-rate sensitivity of the stress was measured by stressrelaxation tests. The microstructure of the tetragonal domains after ferroelastic deformation and the dislocation substructure were studied by transmission electron microscopy in a highvoltage electron microscope. As expected, ferroelastic deformation suppressed the tetragonal variant with its c-axis parallel to the loading direction. The dislocation structure consisted of intersecting dislocations on different slip systems with strongly bowed-out segments. The microprocesses of deformation are discussed here by comparing the deformation data with those of cubic zirconia deformed in the same orientation and based on the observed microstructure. The particular microstructure of t zirconia seems to prevent recovery, so that the high flow stress of ϳ700 MPa is preserved up to 1400°C.

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Creep mechanisms of ferritic oxide dispersion strengthened alloys

Wasilkowska

Bartsch

Messerschmidt

et al. 2003

Journal of Materials Processing Technology

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U. Messerschmidt

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Creep mechanisms of ferritic oxide dispersion strengthened alloys

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