High resolution microscopy study for [001] symmetric tilt boundary with a tilt angle of 66° in rutile-type TiO2 bicrystal

Takahiro Ohno, Seiichiro Ii, Naoya Shibata, Katsuyuki Matsunaga, Yuichi Ikuhara, Takahisa Yamamoto

    Research output: Contribution to journalArticlepeer-review

    7 Citations (Scopus)

    Abstract

    In this study, the grain boundary structure of [001] symmetric tilt boundary with a tilt angle of 66° was investigated using a rutile-type TiO2 bicrystal. The tilt angle of this boundary has a misfit angle of 1.7° from an exact Σ13 approaching to Σ17 relation. High-resolution transmission electron microscopy study (HRTEM) has revealed that the grain boundary was free from any secondary phases, and the two single crystals contact each other perfectly at an atomic scale. The boundary shows almost straight feature without any step structures whereas a part of the boundary forms facet structures consisting of low index planes such as {310} and {110}. On the other hand, it was found that the contrasts due to strong strain fields existed on the grain boundary plane with a spacing of 7.6 nm by weak beam dark field observation. Comparing with atomic structural analysis using HRTEM, the strain field results from a distorted Σ13 unit structure, which can be predicted from a rigid body model of Σ13 relation. This distorted unit structure has a similar structure of Σ17 relation. Namely, the boundary consists of a periodical array consisting mainly of Σ13 unit structures and partially Σ17-like unit structures. In other words, a misfit angle in this boundary was accommodated by not introducing secondary dislocations, but a transformation of basal unit structure.

    Original languageEnglish
    Pages (from-to)2117-2121
    Number of pages5
    JournalMaterials Transactions
    Volume45
    Issue number7
    DOIs
    Publication statusPublished - 2004 Jul

    Keywords

    • Bicrystal
    • Displacement shift complete dislocation
    • Grain boundary structure
    • High-resolution transmission electron microscopy study
    • TiO

    ASJC Scopus subject areas

    • Materials Science(all)
    • Condensed Matter Physics
    • Mechanics of Materials
    • Mechanical Engineering

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