Curtin University Homepage
  • Library
  • Help
    • Admin

    espace - Curtin’s institutional repository

    JavaScript is disabled for your browser. Some features of this site may not work without it.
    View Item 
    • espace Home
    • espace
    • Curtin Research Publications
    • View Item
    • espace Home
    • espace
    • Curtin Research Publications
    • View Item

    An ebsd study of nickel sheets after unidirectional and cross rolling arb processings

    Access Status
    Fulltext not available
    Authors
    Duan, J.
    Quadir, Md Zakaria
    Ferry, M.
    Date
    2015
    Type
    Conference Paper
    
    Metadata
    Show full item record
    Citation
    Duan, J. and Quadir, M.Z. and Ferry, M. 2015. An ebsd study of nickel sheets after unidirectional and cross rolling arb processings, pp. 835-842.
    Source Title
    Materials Science and Technology Conference and Exhibition 2015, MS and T 2015
    ISBN
    9781510813939
    School
    John de Laeter Centre
    URI
    http://hdl.handle.net/20.500.11937/54346
    Collection
    • Curtin Research Publications
    Abstract

    Copyright © 2015 MS&T15®.Commercially pure nickel sheets were processed by accumulative roll bonding (ARB) up to six cycles at room temperature in two different routes. In route one ARB was carried out conventionally and it is called U (unidirectional)-ARB. In route two the sample is rotated by 90° around the normal direction (ND) in alternating ARB cycles and it is called C (cross-rolled)-ARB. Both routes produce typical fine lath structures of severe rolling deformations. EBSD study shows that U-ARB produces typical FCC rolling textures containing Copper {112} <111>, S {123} <634> and Brass {110} <112> orientations. In comparison, C-ARB produces diffused orientation distributions with principal components distributing between Brass and {011} <111> orientations. Schmid factor calculation of the sheet around the RD shows less variation in C-ARB sample than the U-ARB sample. This implies that reduced in-plane anisotropics can be achieved by cross rolling in ARB processing.

    Related items

    Showing items related by title, author, creator and subject.

    • Engineering low intensity planar textures in commercial purity nickel sheets by cross roll bonding
      Duan, J.; Quadir, Md Zakaria; Ferry, M. (2017)
      © 2016 Elsevier B.V. Accumulative roll bonding is a severe plastic deformation technique capable of generating nano-scale microstructures in sheet metals. This technique can also be exploited for processing novel sheet ...
    • Texture balancing in a fcc/bcc multilayered composite produced by accumulative roll bonding
      Duan, J.; Quadir, Md Zakaria; Xu, W.; Kong, C.; Ferry, M. (2016)
      The high strain deformation and recrystallization behaviour of a Fe/Ni multilayered composite sheet fabricated by accumulative roll bonding has been investigated. The comparable initial hardness and subsequent strain ...
    • Using Haulage Accidents and Incident Reports to Identify the Impact of Substandard Haul Road Design on Operational Safety
      Thompson, Roger (2010)
      Well designed and maintained haul roads are the key to minimising truck haulage on-road hazards and costs, as well as increasing productivity. However, practically designing and managing a haul road for optimal performance ...
    Advanced search

    Browse

    Communities & CollectionsIssue DateAuthorTitleSubjectDocument TypeThis CollectionIssue DateAuthorTitleSubjectDocument Type

    My Account

    Admin

    Statistics

    Most Popular ItemsStatistics by CountryMost Popular Authors

    Follow Curtin

    • 
    • 
    • 
    • 
    • 

    CRICOS Provider Code: 00301JABN: 99 143 842 569TEQSA: PRV12158

    Copyright | Disclaimer | Privacy statement | Accessibility

    Curtin would like to pay respect to the Aboriginal and Torres Strait Islander members of our community by acknowledging the traditional owners of the land on which the Perth campus is located, the Whadjuk people of the Nyungar Nation; and on our Kalgoorlie campus, the Wongutha people of the North-Eastern Goldfields.