Abstract
The plastic behaviors of barium titanate (0 0 1) and (1 1 0) single crystals are studied with atomic force microscopy and piezoresponse force microscopy (PFM) following nanoindendation damage. Plastic deformation mechanisms of ferroelectric barium titanate single crystals are discussed with a focus on the interaction between PFM response and dislocation activities. Nanoindentation tests indicate that the theoretical strength is approached prior to the first pop-in event, consistent with the creation of dislocation nucleation sites required for the onset of plasticity. Surface topographic and piezoelectric analyses indicate that pile-ups around indents result from dislocation activities on the primary slip system, { 1 1 0 } pc 〈 1 1 ¯ 0 〉 pc . The more complex indentation-induced domain patterns observed on (1 1 0) barium titanate are also discussed.
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