Interface Phenomena Responsible for Bonding between  TRIP  Steel and Partially Stabilised Zirconia as Revealed by TEM | Zendy

Poklad Anna | Zendy; Motylenko Mykhaylo | Zendy; Klemm Volker | Zendy; Schreiber Gerhard | Zendy; Martin Stefan | Zendy; Decker Sabine | Zendy; Abendroth Barbara | Zendy; Haverkamp Markus | Zendy; Rafaja David | Zendy

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Interface Phenomena Responsible for Bonding between TRIP Steel and Partially Stabilised Zirconia as Revealed by TEM

Author(s) -

Poklad Anna,

Motylenko Mykhaylo,

Klemm Volker,

Schreiber Gerhard,

Martin Stefan,

Decker Sabine,

Abendroth Barbara,

Haverkamp Markus,

Rafaja David

Publication year - 2013

Publication title -

advanced engineering materials

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.938

H-Index - 114

eISSN - 1527-2648

pISSN - 1438-1656

DOI - 10.1002/adem.201200344

Subject(s) - materials science , monoclinic crystal system , high resolution transmission electron microscopy , tetragonal crystal system , cubic zirconia , crystallite , zirconium , crystallography , phase (matter) , deformation (meteorology) , thin film , composite material , transmission electron microscopy , metallurgy , crystal structure , nanotechnology , ceramic , chemistry , organic chemistry

The phase composition and the orientation relationship of several crystallites at the PSZ/TRIP steel interface before and after a mechanical deformation are studied in thin films and in a bulk composite sample using HRTEM, EDX and EELS. The analysis of the zirconium N 2,3 edge in the electron energy loss spectra allows to distinguish the cubic, tetragonal and monoclinic ZrO 2 phases from each other.

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