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BİR RELÜKTANS FIRLATICININ SONLU ELEMANLAR YÖNTEMİ İLE İNCELENMESİ

Year 2015, Volume: 30 Issue: 4, 0 - 0, 25.12.2015
https://doi.org/10.17341/gummfd.15652

Abstract

Bu çalışmada, Sonlu Elemanlar Analizi ile çözüm yapabilen Ansys Maxwell yazılımı kullanılarak bir sargılı relüktans fırlatıcının modeli oluşturulmuş ve oluşturulan modeldeki parametreler değiştirilerek çıkış hızı en yüksek olan sistem belirlenmiştir. 3 farklı malzemeden imal edilmiş (AISI1020, AISI1050 ve AISI12L14), 2-6 mm çapında, 2-10 cm uzunluğundaki mermilerin fırlatılması analiz edilmiştir. Analiz sonucunda merminin yapıldığı malzemenin geçirgenliğinin, merminin uzunluğunun ve merminin çapının, merminin namlu çıkış hızı üzerindeki etkileri belirlenmiştir. Gerçekleştirilen modelde fırlatma gerilimi DC 250 volttur.

References

  • Fair, H. D., “Electromagnetic propulsion: A new initiative”, IEEE Transactions on Magnetics, Cilt 18, No 1, 4-6, 1982.
  • Tomczuk, B. ve Sobol, M., “Field Analysis of the Magnetic Systems for Tubular Linear Reluctance Motors”, IEEE Transactions on Magnetics, Cilt 41, No 4, 1300-1305, 2005.
  • Bresie, D. A. ve Andrews, J. A., “Design of a Reluctance Accelerator”, IEEE Transactions on Magnetics, Cilt 27, No 1, 623-627, 1991.
  • Waindok, A. ve Mazur, G., “Mutual Inductances in a Mathematical Model of the Three-Stage Reluctance Accelerator”, 3rd International Students Conference on Electrodynamics and Mechatronics, Opole University of Technology, Polonya, 115-118, 6-8 Ekim 2011.
  • Bayati, M. S., Keshtkar, A. ve Gharib, L., “Analyzing the Near and Far Field Using Finite Difference and Finite Element Method”, IEEE Transactions on Plasma Science, Cilt 41, No 5, 1398-1402, 2013.
  • Kim, S. W., Jung, H. K. ve Hahn, S. Y., “An Optimal Design of Capacitor-Driven Coilgun”, IEEE Transactions on Magnetics, Cilt 30, No 2, 207-211, 1994.
  • Marder, B., “A Coilgun Design Primer”, IEEE Transactions on Magnetics, Cilt 29, No 1, 701-705, 1993.
  • Kaye, R. J., “Operational Requirements and Issues for Coilgun Electromagnetic Launchers”, IEEE Transactions on Magnetics, Cilt 41, No 1, 194-199, 2005.
  • Slade, G. W., “A Simple Unified Physical Model for a Reluctance Accelerator”, IEEE Transactions on Magnetics, Cilt 41, No 11, 4270-4276, 2005.
  • Ingram, S. K. ve Pratap, S. B., “A Control Algorithm for Reluctance Accelerators,” IEEE Transaction on Magnetics, Cilt 27, No 1, 156-159, 1991.
  • Slade, G. W., “Fast Finite-Element Solver for a Reluctance Mass Accelerator,” IEEE Transaction on Magnetics, Cilt 42, No 9, 2184-2192, 2006.
  • Chaowei, Z., Pengshu, D., Xiaojun, D., Sanqun, L., Zhiyuan, L. ve Guanghui, Z., “Analysis of Reluctance Coil Launcher Performance Using Coupled Field-Circuit Method”, International Conference on Electrical Machines and Systems, Wuhan, China, 4049-4052, 17-20 Ekim 2008.
  • Kalender, O., Bir Merminin Elektromanyetik Enerji ile Sevkinin Optimizasyonu, Doktora Tezi, Gazi Üniversitesi, Fen Bilimleri Enstitüsü, 2005.
  • Yadong, Z., Ying, W. ve Jiangjun, R., “Capacitor-Driven Coil-Gun Scaling Relationships”, IEEE Transactions on Plasma Science, Cilt 39, No 1, 220-224, 2011.
  • Hou, Y., Liu, Z., Ouyang, J.M. ve Yang, D., “Parameter Settings of the Projectile of the Coil Electromagnetic Launcher” 16th International Symposium on Electromagnetic Launch Technology, Beijing, China, 1-4, 15-19 Mayıs 2012.
  • Sen, P. C., Principles of Electric Machines and Power Electronics, John Wiley & Sons, Singapur, 1989.
  • Ulaby, F. T., Michielssen, E. ve Ravaioli, U., Fundamentals of Applied Electromagnetics, 6th Edition, Prentice Hall, New Jersey, A.B.D., 2010.
  • Topbaş, M. A., Çelik ve Isıl işlem Atlası, Prestij, İstanbul, 1998.
  • Ziegenbein, J., Magnetic Clamping Structures for the Consolidation of Composite Laminates, Msc Thesis, Georgia Institute of Technology, 2011.
  • Li, F., Li, X., Zhu, T. ve Rong, Y., “Numerical Simulation of the Moving Induction Heating Process with Magnetic Flux Concentrator”, Advances in Mechanical Engineering, Cilt 2013, 1-9, 2013.
  • An, J. ve Kwon, D. S., “Modeling of a Magnetorheological Actuator Including Magnetic Hysteresis, Journal of Intelligent Material Systems and Structures, Cilt 14, 541-550, 2003.
  • Daldaban, F. ve Ustkoyuncu, N., “Inductance Estimating of Linear Switched Reluctance Motors with the Use of Adaptive Neuro-Fuzzy Inference Systems", Gazi University Journal of Science, Cilt 22, No 2, 89-96, 2009.
Year 2015, Volume: 30 Issue: 4, 0 - 0, 25.12.2015
https://doi.org/10.17341/gummfd.15652

Abstract

References

  • Fair, H. D., “Electromagnetic propulsion: A new initiative”, IEEE Transactions on Magnetics, Cilt 18, No 1, 4-6, 1982.
  • Tomczuk, B. ve Sobol, M., “Field Analysis of the Magnetic Systems for Tubular Linear Reluctance Motors”, IEEE Transactions on Magnetics, Cilt 41, No 4, 1300-1305, 2005.
  • Bresie, D. A. ve Andrews, J. A., “Design of a Reluctance Accelerator”, IEEE Transactions on Magnetics, Cilt 27, No 1, 623-627, 1991.
  • Waindok, A. ve Mazur, G., “Mutual Inductances in a Mathematical Model of the Three-Stage Reluctance Accelerator”, 3rd International Students Conference on Electrodynamics and Mechatronics, Opole University of Technology, Polonya, 115-118, 6-8 Ekim 2011.
  • Bayati, M. S., Keshtkar, A. ve Gharib, L., “Analyzing the Near and Far Field Using Finite Difference and Finite Element Method”, IEEE Transactions on Plasma Science, Cilt 41, No 5, 1398-1402, 2013.
  • Kim, S. W., Jung, H. K. ve Hahn, S. Y., “An Optimal Design of Capacitor-Driven Coilgun”, IEEE Transactions on Magnetics, Cilt 30, No 2, 207-211, 1994.
  • Marder, B., “A Coilgun Design Primer”, IEEE Transactions on Magnetics, Cilt 29, No 1, 701-705, 1993.
  • Kaye, R. J., “Operational Requirements and Issues for Coilgun Electromagnetic Launchers”, IEEE Transactions on Magnetics, Cilt 41, No 1, 194-199, 2005.
  • Slade, G. W., “A Simple Unified Physical Model for a Reluctance Accelerator”, IEEE Transactions on Magnetics, Cilt 41, No 11, 4270-4276, 2005.
  • Ingram, S. K. ve Pratap, S. B., “A Control Algorithm for Reluctance Accelerators,” IEEE Transaction on Magnetics, Cilt 27, No 1, 156-159, 1991.
  • Slade, G. W., “Fast Finite-Element Solver for a Reluctance Mass Accelerator,” IEEE Transaction on Magnetics, Cilt 42, No 9, 2184-2192, 2006.
  • Chaowei, Z., Pengshu, D., Xiaojun, D., Sanqun, L., Zhiyuan, L. ve Guanghui, Z., “Analysis of Reluctance Coil Launcher Performance Using Coupled Field-Circuit Method”, International Conference on Electrical Machines and Systems, Wuhan, China, 4049-4052, 17-20 Ekim 2008.
  • Kalender, O., Bir Merminin Elektromanyetik Enerji ile Sevkinin Optimizasyonu, Doktora Tezi, Gazi Üniversitesi, Fen Bilimleri Enstitüsü, 2005.
  • Yadong, Z., Ying, W. ve Jiangjun, R., “Capacitor-Driven Coil-Gun Scaling Relationships”, IEEE Transactions on Plasma Science, Cilt 39, No 1, 220-224, 2011.
  • Hou, Y., Liu, Z., Ouyang, J.M. ve Yang, D., “Parameter Settings of the Projectile of the Coil Electromagnetic Launcher” 16th International Symposium on Electromagnetic Launch Technology, Beijing, China, 1-4, 15-19 Mayıs 2012.
  • Sen, P. C., Principles of Electric Machines and Power Electronics, John Wiley & Sons, Singapur, 1989.
  • Ulaby, F. T., Michielssen, E. ve Ravaioli, U., Fundamentals of Applied Electromagnetics, 6th Edition, Prentice Hall, New Jersey, A.B.D., 2010.
  • Topbaş, M. A., Çelik ve Isıl işlem Atlası, Prestij, İstanbul, 1998.
  • Ziegenbein, J., Magnetic Clamping Structures for the Consolidation of Composite Laminates, Msc Thesis, Georgia Institute of Technology, 2011.
  • Li, F., Li, X., Zhu, T. ve Rong, Y., “Numerical Simulation of the Moving Induction Heating Process with Magnetic Flux Concentrator”, Advances in Mechanical Engineering, Cilt 2013, 1-9, 2013.
  • An, J. ve Kwon, D. S., “Modeling of a Magnetorheological Actuator Including Magnetic Hysteresis, Journal of Intelligent Material Systems and Structures, Cilt 14, 541-550, 2003.
  • Daldaban, F. ve Ustkoyuncu, N., “Inductance Estimating of Linear Switched Reluctance Motors with the Use of Adaptive Neuro-Fuzzy Inference Systems", Gazi University Journal of Science, Cilt 22, No 2, 89-96, 2009.
There are 22 citations in total.

Details

Journal Section Makaleler
Authors

Ferhat Daldaban

Vekil Sarı

Publication Date December 25, 2015
Submission Date January 6, 2015
Published in Issue Year 2015 Volume: 30 Issue: 4

Cite

APA Daldaban, F., & Sarı, V. (2015). BİR RELÜKTANS FIRLATICININ SONLU ELEMANLAR YÖNTEMİ İLE İNCELENMESİ. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, 30(4). https://doi.org/10.17341/gummfd.15652
AMA Daldaban F, Sarı V. BİR RELÜKTANS FIRLATICININ SONLU ELEMANLAR YÖNTEMİ İLE İNCELENMESİ. GUMMFD. December 2015;30(4). doi:10.17341/gummfd.15652
Chicago Daldaban, Ferhat, and Vekil Sarı. “BİR RELÜKTANS FIRLATICININ SONLU ELEMANLAR YÖNTEMİ İLE İNCELENMESİ”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 30, no. 4 (December 2015). https://doi.org/10.17341/gummfd.15652.
EndNote Daldaban F, Sarı V (December 1, 2015) BİR RELÜKTANS FIRLATICININ SONLU ELEMANLAR YÖNTEMİ İLE İNCELENMESİ. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 30 4
IEEE F. Daldaban and V. Sarı, “BİR RELÜKTANS FIRLATICININ SONLU ELEMANLAR YÖNTEMİ İLE İNCELENMESİ”, GUMMFD, vol. 30, no. 4, 2015, doi: 10.17341/gummfd.15652.
ISNAD Daldaban, Ferhat - Sarı, Vekil. “BİR RELÜKTANS FIRLATICININ SONLU ELEMANLAR YÖNTEMİ İLE İNCELENMESİ”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi 30/4 (December 2015). https://doi.org/10.17341/gummfd.15652.
JAMA Daldaban F, Sarı V. BİR RELÜKTANS FIRLATICININ SONLU ELEMANLAR YÖNTEMİ İLE İNCELENMESİ. GUMMFD. 2015;30. doi:10.17341/gummfd.15652.
MLA Daldaban, Ferhat and Vekil Sarı. “BİR RELÜKTANS FIRLATICININ SONLU ELEMANLAR YÖNTEMİ İLE İNCELENMESİ”. Gazi Üniversitesi Mühendislik Mimarlık Fakültesi Dergisi, vol. 30, no. 4, 2015, doi:10.17341/gummfd.15652.
Vancouver Daldaban F, Sarı V. BİR RELÜKTANS FIRLATICININ SONLU ELEMANLAR YÖNTEMİ İLE İNCELENMESİ. GUMMFD. 2015;30(4).