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

    Analysis of deep hole drilling in presence of electromagnetic field using Taguchi technique

    Access Status
    Fulltext not available
    Authors
    Najarian, F.
    Nor, F.
    Noordin, M.
    Kurniawan, Denni
    Date
    2014
    Type
    Conference Paper
    
    Metadata
    Show full item record
    Citation
    Najarian, F. and Nor, F. and Noordin, M. and Kurniawan, D. 2014. Analysis of deep hole drilling in presence of electromagnetic field using Taguchi technique.
    Source Title
    ASME International Mechanical Engineering Congress and Exposition, Proceedings (IMECE)
    DOI
    10.1115/IMECE2014-40139
    ISBN
    9780791846445
    School
    Curtin Malaysia
    URI
    http://hdl.handle.net/20.500.11937/67645
    Collection
    • Curtin Research Publications
    Abstract

    Copyright © 2014 by ASME. Electromagnetic field assisted machining is potential and is of particular interest to be explored to improve machining quality with minimum environmental effect. In this study, the effect of electromagnetic field on tool and workpiece is analyzed along with the effects of presence of drilling bush, feedrate, and spindle speed to the quality of hole for deep hole drilling. The effect of these control factors to the drilled hole's cylindricity error and roundness error was determined using Taguchi technique. L16 orthogonal array design of experiments was used, with regression model was calculated and tested using analysis of variance. Spindle speed was found to be the only significant factor, with other factors did not give significant effect to roundness or cylindricity, except for tool magnetization which affected cylindricity. Issues with magnetization system are likely hinder the magnetic field to exhibit potential to improve machining quality, and should be addressed for future study.

    Related items

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

    • Design of an ultra-speed Lab-Scale drilling rig for simulation of high speed drilling operations in hard rocks
      Rasouli, Vamegh; Evans, Brian (2013)
      Drilling is a common process in mining and petroleum engineering applications which have different objectives. For example, drilling deep boreholes in tight gas formations and gas shales is becoming more popular in the ...
    • Evaluating factors controlling damage and productivity in tight gas reservoirs
      Bahrami, Hassan (2012)
      Production at economical rates from tight gas reservoirs in general is very challenging not only due to the very low intrinsic permeability but also as a consequence of several different forms of formation damage that can ...
    • Utilizing Coiled tube rig for mineral exploration application
      Roufail, R.; Rasouli, Vamegh; Mokaramian, A.; Kamyab, Mohammadreza; Lagat, C.; Cavanough, G. (2013)
      Mineral exploration is in a race to employ drilling technology that can perform the exploration and drilling investigation in a fast and inexpensive manner. After an extensive study of the available drilling technologies ...
    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.