BibTex RIS Kaynak Göster

Success Story of Armored Multitask Vehicle Design

Yıl 2015, Cilt: 3 Sayı: 1, 17 - 23, 07.01.2015

Öz

In this study; an armored vehicle design including whole process from preliminary studies to armor design is presented in order of defining requirements depending on the multitasking performance, selecting armor threats for different parts of the fuselage, preliminary design stages for different arrangements, procurement phases and performance tests. Ballistic evaluation of main areas depending on the vulnerability capabilities are studied by means of no add-on protection for personnel is necessary excluding outer gunners. Compact arrangement enabling personnel transfer, carrying attached heavy weapons or suitable for mission modules is possible by design flexibility. Additionally, pictures and drawings are attached to show this innovative design.

Kaynakça

  • AVTP-1, 1991. (NATO Allied Vehicle Testing Publications).
  • Bhatnagar, A., (2006). Lightweight Ballistic Composites. Woodhead Publishing Limited, CRC Press, 2.
  • Johnson, H.E., Louca, L.A., Mouring, S. & Fallah, A.S., (2009). Modelling impact damage in marine composite panels. International Journal of Impact Engineering, 36(1), 25-39.
  • Jones R.M. (1999). Mechanics of Composite Materials. Taylor & Francis, Inc., Second Edition., 1.
  • Karakuzu, R., Erbil, E. & Aktas, M., (2010). Impact characterization of glass/epoxy composite plates: An experimental and numerical study. Composites : Part B, 41(5), 388 395.
  • Mukasey, M.B., Sedgwick, J.L. & Hagy, D.W., (2008). Ballistic Resistance of Body Armor, NIJ Standard-0101.06. US Department of Justice (www.ojp.usdoj.gov/nij).
  • Naik N.K. & Doshi A.V., (2008). Ballistic impact behaviour of thick composites: Parametric studies. Composite Structures, 82(3), 447-464.
  • Naik N.K. & Shrirao P., (2004). Composite structures under ballistic impact. Composite Structures, 66(1-4), 579-590.
  • Sutherland, L.S. & Soares, C.G. (2006). Impact behaviour of typical marine composite laminates. Composites : Part B, 37(2-3), 89-100.
  • Swanson S.R. (1997). Introduction to Design and Analysis with Advanced Composite Materials. Prentice Hall Inc., 2.
  • Tita, V., Carvalho J. & Vandepitte D, (2008). Failure analysis of low velocity impact on thin composite laminates: Experimental and numerical approaches. Composite Structures, 83(4), 413-428.
Yıl 2015, Cilt: 3 Sayı: 1, 17 - 23, 07.01.2015

Öz

Kaynakça

  • AVTP-1, 1991. (NATO Allied Vehicle Testing Publications).
  • Bhatnagar, A., (2006). Lightweight Ballistic Composites. Woodhead Publishing Limited, CRC Press, 2.
  • Johnson, H.E., Louca, L.A., Mouring, S. & Fallah, A.S., (2009). Modelling impact damage in marine composite panels. International Journal of Impact Engineering, 36(1), 25-39.
  • Jones R.M. (1999). Mechanics of Composite Materials. Taylor & Francis, Inc., Second Edition., 1.
  • Karakuzu, R., Erbil, E. & Aktas, M., (2010). Impact characterization of glass/epoxy composite plates: An experimental and numerical study. Composites : Part B, 41(5), 388 395.
  • Mukasey, M.B., Sedgwick, J.L. & Hagy, D.W., (2008). Ballistic Resistance of Body Armor, NIJ Standard-0101.06. US Department of Justice (www.ojp.usdoj.gov/nij).
  • Naik N.K. & Doshi A.V., (2008). Ballistic impact behaviour of thick composites: Parametric studies. Composite Structures, 82(3), 447-464.
  • Naik N.K. & Shrirao P., (2004). Composite structures under ballistic impact. Composite Structures, 66(1-4), 579-590.
  • Sutherland, L.S. & Soares, C.G. (2006). Impact behaviour of typical marine composite laminates. Composites : Part B, 37(2-3), 89-100.
  • Swanson S.R. (1997). Introduction to Design and Analysis with Advanced Composite Materials. Prentice Hall Inc., 2.
  • Tita, V., Carvalho J. & Vandepitte D, (2008). Failure analysis of low velocity impact on thin composite laminates: Experimental and numerical approaches. Composite Structures, 83(4), 413-428.
Toplam 11 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Project Papers
Yazarlar

Veysel Alankaya

Yayımlanma Tarihi 7 Ocak 2015
Yayımlandığı Sayı Yıl 2015 Cilt: 3 Sayı: 1

Kaynak Göster

APA Alankaya, V. (2015). Success Story of Armored Multitask Vehicle Design. Journal of Management and Information Science, 3(1), 17-23. https://doi.org/10.17858/jmisci.28673
AMA Alankaya V. Success Story of Armored Multitask Vehicle Design. JMISCI. Ocak 2015;3(1):17-23. doi:10.17858/jmisci.28673
Chicago Alankaya, Veysel. “Success Story of Armored Multitask Vehicle Design”. Journal of Management and Information Science 3, sy. 1 (Ocak 2015): 17-23. https://doi.org/10.17858/jmisci.28673.
EndNote Alankaya V (01 Ocak 2015) Success Story of Armored Multitask Vehicle Design. Journal of Management and Information Science 3 1 17–23.
IEEE V. Alankaya, “Success Story of Armored Multitask Vehicle Design”, JMISCI, c. 3, sy. 1, ss. 17–23, 2015, doi: 10.17858/jmisci.28673.
ISNAD Alankaya, Veysel. “Success Story of Armored Multitask Vehicle Design”. Journal of Management and Information Science 3/1 (Ocak 2015), 17-23. https://doi.org/10.17858/jmisci.28673.
JAMA Alankaya V. Success Story of Armored Multitask Vehicle Design. JMISCI. 2015;3:17–23.
MLA Alankaya, Veysel. “Success Story of Armored Multitask Vehicle Design”. Journal of Management and Information Science, c. 3, sy. 1, 2015, ss. 17-23, doi:10.17858/jmisci.28673.
Vancouver Alankaya V. Success Story of Armored Multitask Vehicle Design. JMISCI. 2015;3(1):17-23.