Research Article
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Year 2017, , 61 - 71, 28.06.2017
https://doi.org/10.19072/ijet.309372

Abstract

References

  • W.J. Hall and Can Balkaya, ‘Final Report on MAGLEV Guideway Design Review, Task-2 Long Term Performance and Seismic Assessment of Maglev Guideways’ USACERL, 1993.
  • Bechtel Corporation et al, ‘Maglev System Concept Definitions’ Final Report to US Department of Transportation, Federal Railroad Administration, 1992. (Co-investigators: Hughes; GM Electro-Motive; Draper Laboratory; Massachusetts Institute of Technology).
  • Magneplane International Inc., ‘System Concept Definition Report for the National Maglev Initiative’, 1992. (Co-investigators: Massachusetts Institute of Technology; United Engineers and Constructors; Raytheon Equipment Division; Failure Analysis Associates; Bromwell & Carrier; Beech Aircraft Corporation; Process Systems International).
  • Grumman Aerospace Corporation, ‘System Concept Definition of a Superconducting Maglev Electromagnetic System’ Final Report, 1992. (Co-investigators: Parsons Brinckerhoff; Intermagnetic General Corporation; PSM Technologies; Honeywell; Battelle; Gibbs and Hill; NYSIS.
  • Foster-Miller Inc., ‘Maglev System Concept Definition Report’ Final Report, 1992.
  • Don Plotkin and Simon Kim, ‘Maglev Guideway Design Issues’ Journal of Transportation Engineering, May/June 1997, 189-191.

Conceptual Guideway Structural Design for MAGLEV High-speed Ground Transportation System

Year 2017, , 61 - 71, 28.06.2017
https://doi.org/10.19072/ijet.309372

Abstract

The conceptual guideway structural designs for MAGLEV
(magnetic-levitation) high-speed ground transportation system are discussed by
considering four different guideway designs of Bechtel, Magneplane, Grumman and
Foster-Miller. The important aspects of the conceptual designs as well as some
of the apparent shortcomings that will need attention in the design studies are
emphasized.  In this context the
technical assessments and design observations may be considered for the
guideway conceptual designs are given in this study.

References

  • W.J. Hall and Can Balkaya, ‘Final Report on MAGLEV Guideway Design Review, Task-2 Long Term Performance and Seismic Assessment of Maglev Guideways’ USACERL, 1993.
  • Bechtel Corporation et al, ‘Maglev System Concept Definitions’ Final Report to US Department of Transportation, Federal Railroad Administration, 1992. (Co-investigators: Hughes; GM Electro-Motive; Draper Laboratory; Massachusetts Institute of Technology).
  • Magneplane International Inc., ‘System Concept Definition Report for the National Maglev Initiative’, 1992. (Co-investigators: Massachusetts Institute of Technology; United Engineers and Constructors; Raytheon Equipment Division; Failure Analysis Associates; Bromwell & Carrier; Beech Aircraft Corporation; Process Systems International).
  • Grumman Aerospace Corporation, ‘System Concept Definition of a Superconducting Maglev Electromagnetic System’ Final Report, 1992. (Co-investigators: Parsons Brinckerhoff; Intermagnetic General Corporation; PSM Technologies; Honeywell; Battelle; Gibbs and Hill; NYSIS.
  • Foster-Miller Inc., ‘Maglev System Concept Definition Report’ Final Report, 1992.
  • Don Plotkin and Simon Kim, ‘Maglev Guideway Design Issues’ Journal of Transportation Engineering, May/June 1997, 189-191.
There are 6 citations in total.

Details

Subjects Engineering
Journal Section Articles
Authors

Can Balkaya

W.j. Hall This is me

Publication Date June 28, 2017
Acceptance Date June 21, 2017
Published in Issue Year 2017

Cite

APA Balkaya, C., & Hall, W. (2017). Conceptual Guideway Structural Design for MAGLEV High-speed Ground Transportation System. International Journal of Engineering Technologies IJET, 3(2), 61-71. https://doi.org/10.19072/ijet.309372
AMA Balkaya C, Hall W. Conceptual Guideway Structural Design for MAGLEV High-speed Ground Transportation System. IJET. June 2017;3(2):61-71. doi:10.19072/ijet.309372
Chicago Balkaya, Can, and W.j. Hall. “Conceptual Guideway Structural Design for MAGLEV High-Speed Ground Transportation System”. International Journal of Engineering Technologies IJET 3, no. 2 (June 2017): 61-71. https://doi.org/10.19072/ijet.309372.
EndNote Balkaya C, Hall W (June 1, 2017) Conceptual Guideway Structural Design for MAGLEV High-speed Ground Transportation System. International Journal of Engineering Technologies IJET 3 2 61–71.
IEEE C. Balkaya and W. Hall, “Conceptual Guideway Structural Design for MAGLEV High-speed Ground Transportation System”, IJET, vol. 3, no. 2, pp. 61–71, 2017, doi: 10.19072/ijet.309372.
ISNAD Balkaya, Can - Hall, W.j. “Conceptual Guideway Structural Design for MAGLEV High-Speed Ground Transportation System”. International Journal of Engineering Technologies IJET 3/2 (June 2017), 61-71. https://doi.org/10.19072/ijet.309372.
JAMA Balkaya C, Hall W. Conceptual Guideway Structural Design for MAGLEV High-speed Ground Transportation System. IJET. 2017;3:61–71.
MLA Balkaya, Can and W.j. Hall. “Conceptual Guideway Structural Design for MAGLEV High-Speed Ground Transportation System”. International Journal of Engineering Technologies IJET, vol. 3, no. 2, 2017, pp. 61-71, doi:10.19072/ijet.309372.
Vancouver Balkaya C, Hall W. Conceptual Guideway Structural Design for MAGLEV High-speed Ground Transportation System. IJET. 2017;3(2):61-7.

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