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    FIM/atom probe study of grain boundaries in Ni(sub 3)Al

    New search for: S. S. Brenner

    Field-ion microscopy and atom probe microanalysis have been used to study grain boundaries in Ni(sub 3)Al to help clarify the mechanism by which boron ductilizes this material. Except for the Dartmouth material all of the ductile alloys were grain-refined by cold working and recrystallization at 800--900(degrees)C.

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    FIM/atom probe study of grain boundaries in Ni(sub 3)Al

    New search for: S. S. Brenner

    Field-ion microscopy and atom probe microanalysis have been used to study grain boundaries in Ni(sub 3)Al to help clarify the mechanism by which boron ductilizes this material. Except for the Dartmouth material all of the ductile alloys were grain-refined by cold working and recrystallization at 800--900(degrees)C.

    Access

    Access via TIB
    Check availability in my library

    FIM/atom probe study of grain boundaries in Ni(sub 3)Al

    New search for: S. S. Brenner

    Field-ion microscopy and atom probe microanalysis have been used to study grain boundaries in Ni(sub 3)Al to help clarify the mechanism by which boron ductilizes this material. Except for the Dartmouth material all of the ductile alloys were grain-refined by cold working and recrystallization at 800--900(degrees)C.

    Access

    Access via TIB
    Check availability in my library

    Access

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    Document information
    Title:

    FIM/atom probe study of grain boundaries in Ni(sub 3)Al

    Contributors:

    S. S. Brenner (author)

    Publication date:

    1991

    Size:

    16 pages

    Type of media:

    Report

    Type of material:

    No indication

    Language:

    English

    Keywords:

    Nonferrous Metals & Alloys , Aluminium Alloys , Boron , Nickel Base Alloys , Grain Boundaries , Beryllium , Carbon , Ductility , Hafnium , Intermetallic Compounds , Ion Microscopy , Metallurgical Effects , Segregation , Meetings , Aluminium nickel alloys , EDB/360103

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