1 |
ASTM (American Society for Testing and Materials), 1999. Standard Test Method for Dynamic Young's Modulus, Shear Modulus, and Poisson's Ratio by Impulse Excitation of Vibration, E1876-99. Avaliable at: http://www.astm.org [Accessed 20 August 2011].
|
2 |
Ball, R.E., 1985. The Fundamentals of Aircraft Combat Survivability Analysis and Design. AIAA education series: New York.
|
3 |
Ball, R.E., 2003. The Fundamentals of Aircraft Combat Survivability Analysis and Design. 2ndEd. AIAA education series: Virginia.
|
4 |
Ball, R.E. & Calvano, C.N., 1994. Establishing the Fundamentals of a Surface Ship Survivability Design Discipline. Naval Engineers Journal, 106(1), pp.71-74.
|
5 |
Bloom, J.B. Reese, R.M. & Hopkins, T.M., 1994. Live Fire Test and Evaluation for Ships. Naval Engineers Journal, 106(3), pp.228-245.
DOI
ScienceOn
|
6 |
Chung, J.H. & Kwon, J.I., 2008a. Survivability Analysis of A Naval Ship Using the MOTISS Program-(1): Theoretical Background. Proceedings of the Annual Autumn Meeting of Society of Naval Architects of Korea, Changwon, Republic of Korea, November 2008, pp.330-339.
|
7 |
Chung, J.H. & Kwon, J.I., 2008b. Survivability Analysis of A Naval Ship Using the MOTISS Program-(2): A Numerical Example. Proceedings of the Annual Autumn Meeting of Society of Naval Architects of Korea, Changwon, Republic of Korea, November 2008, pp.340-348.
|
8 |
Lynch, D.D. Kunkel, R.W. & Juarascio, S.S., 1997. An Analysis Comparison Using the Vulnerability Analysis for Surface Target(VAST) Computer Code and the computation of Vulnerable Area and Repair Time(COVARTIII) Computer Code, U.S. Army Research Laboratory. ARL-MR-341.
|
9 |
Lee, S.G. Kwon, J.I. & Chung, J.H., 2007. Integrated Structural Dynamic Response Analysis considering the UNDEX Shock Wave and Gas Bubble Pulse. Journal of the Society of Naval Architects of Korea, 44(2), pp.148-153.
DOI
ScienceOn
|
10 |
Lillis, J.A., 2002. Analysis of the applicability of aircraft vulnerability assessment and reduction techniques to small surface craft. Master's Thesis. Monterey, California: Naval Postgraduate School.
|
11 |
Pei, Y. Song, B. & Han, Q., 2009. Shot Line Geometric Description Method for Aircraft Vulnerability Calculation. Chinese Journal of Aeronautics, 22(5), pp.498-504.
DOI
ScienceOn
|
12 |
Pei, Y. Song, B. & Han, Q., 2006. A Generic Calculation Model for Aircraft Single-hit Vulnerability Assessment Based on Equivalent Target. Chinese Journal of Aeronautics, 19(30), pp.183-189.
DOI
ScienceOn
|
13 |
Pugh, R., 2010. A Rapid Maritime Concept Vulnerability Analysis Tool. Avaliable at: http://qinetiq.com.au/home/defence/defence_solutions/sea/survive/conferences.Par.7579.File.pdf [Accessed 20 August 2011].
|
14 |
SURVIAC (Survivability/Vulnerability Information Analysis Center). FASTGEN 4. Avaliable at: http://www.bahdayton.com/surviac/fastgen.htm [Accessed 20 August 2011].
|
15 |
U.S. Department of Transportation Federal Aviation Administration, 2005. Advanced Aircraft Materials, Engine Debris Penetration Testing, DOT/FAA/AR-03/37, Office of Aviation Research and Development Washington, D.C.
|
16 |
Xu, L. Tang, L.C. Ho, S.L. & Zhu, M.L., 2002. Fuzzy assessment of FMEA for engine systems. Reliability Engineering and System Safety, 75, pp.17-29.
DOI
ScienceOn
|
17 |
David, L. Robert, W.K. & Stephanie, S.J., 1997. An Analysis comparison Using the Vulnerability Analysis for Surface Target(VAST) Computer Code and the Computation of Vulnerable Area and Repair Time (COVARTIII) Computer Code, Army Research Laboratory, ARL-MR-341.
|
18 |
FAA(The Federal Aviation Administration), 2005. Advanced Aircraft Materials, Engine Debris Penetration Testing. Virginia: NTIS.
|
19 |
Driels, M., 2004. Weaponeering: Conventional weapon System Effectiveness. AIAA education series: Virginia.
|
20 |
Friedman, N., 2006. World Naval Weapon Systems. 5th Ed. The U.S. Naval Institute.
|
21 |
Graswald, M. Brown, R.E. Sinibaldi, J.O. Nolte, T. & Rothe, H., 2010. Vulnerability of Mortar Projectiles by Intercepting Fragmentation Warheads. Journal of Applied Mechanics, 77(5), pp.051804-1, 051804-8.
DOI
ScienceOn
|
22 |
Gama, B.A. & Gillespie, J.J.W., 2011. Finite element modeling of impact, damage evolution and penetration of thick-section composites. International Journal of Impact Engineering, 38(4), pp.181-197.
DOI
ScienceOn
|
23 |
ITT Corporation, 2010. COVART 6.1: FASTGEN Legacy Mode User's Manual, Joint Aircraft Survivability Program, Report JASPO-M-07-03-030.
|
24 |
JTCG (Joint Technical Coordinating Group on Aircraft Survivability), 2001. Survivability models and simulations. Aerospace systems survivability handbook series-Volume 5. JTCG/AS-01-D007.
|
25 |
JTCG/ME, 1985. Penetration Equations Handbook for Kinetic-Energy Penetrators(U). Joint Technical Coordinating Group for Munitions Effectiveness (Anti-Air). 61 JTCG/ME-77-16, Revision 1-15.
|
26 |
Kim, K.S. Lee, J.H. & Hwang, S.Y., 2011. Simplified vulnerability assessment procedure for the warship based on the vulnerable area approach. Journal of the Society of Naval Architects of Korea, 48(5), pp.404-413.
DOI
ScienceOn
|