9. Sato K., Tagawa K., and Inoue Y., “Modulated Struc- ture and Magnetic Properties of Age-Hardenable Fe- Mn-Al-C Alloys,” Met. Trans A, vol. 21A, pp 5-11 (1990).
10. Kayak G. L., “Fe-Mn-Al Precipitation-Hardening Austenitic Alloys,” Met. Sc. And Heat Tr., vol. 11, pp 95-97 (1969).
11. Acselrad O., Dille J., Pereira L. C., Delplancke J. L., “Room-Temperature Cleavage Fracture of FeMnAlC Steels,” Met. Trans. A, vol. 35A, pp 3863-3866 (2004).
12. Schmatz D. J., “Formation of Beta Manganese-Type Structure in Iron-Aluminum-Manganese Alloys,” Trans. of Met. Soc. of AIME, vol. 215, pp 112-114 (1959).
13. Acselrad O., Kalashnikov I. S., Silva E. M., Khadyev M. S., Simao R. A., “Diagram of Phase Transformation in the Austenite of Hardened Alloy Fe-28Mn-8.5Al- 1C-1.25Si as a result of Ageing due to Isothermal Heating,” Met. Sci. and Heat Treat., Vol. 48, pp 543- 553 (2006).
14. Howell R. A., Lekakh S. L., Van Aken D. C., Richards V. L., “The Effect of Silicon Content on the Fluid- ity and Microstructure of Fe-Mn-Al-C Alloys,” AFS Transactions, vol. 116, pp 867-878 (2008).
15. Chiou S. T., Cheng W. C., Lee W. S., “Strain Rate Ef- fects on the Mechanical Properties of a Fe-Mn-Al Al- loy Under Dynamic Impact Deformations,” Mat. Sci. and Eng. A., vol. 392, pp 156-162 (2005).
16. Walley S. M., “Shear Localization: A Historical Over- view,” Met. Trans. A, vol. 38A, pp 2629-2654 (2007).
17. MIL-PRF-32260, Military Performance Specification for Perforated Homogeneous Armor.
18. Kalashnikov I., Acselrad O., Shalkevich A., Pereira L.C., “Chemical Composition Optimization for Aus- tenitic Steels of the Fe-Mn-Al-C System,” Journal of Materials Engineering and Performance, vol. 9, No. 6, pp 597-602 (2000).
19. Acselrad O., Kalashnikov I. S., Silva E. M., Simao R. A., Achete C. A., Pereira L. C., “Phase Transforma- tions in FeMnAlC Austenitic Steels with Si Addition,” Met. Trans. A., vol. 33A, pp 3569-3572 (2002).
20. Follansbee P. S., “The Hopkinson Bar,” ASM Hand- book (9th
Edition), vol. 8, pp 198-203 (1994).
21. “Armor Plate, Steel, Homogeneous,” MIL-A-12560H, pp 1-41 (2007).
22. Weerasooriya T., Moy P., “Effect of Strain-Rate on the Deformation Behavior of Rolled-Homogeneous-Armor (RHA) Steel at Different Hardnesses,” Presented at the Int’l Congress on Experimental Mechanics, Costa Mesa, CA, June 7-10 (2004).
23. Hale G. E., Baker A. J., “Carbide Precipitation in Aus- tenitic Fe-Mn-Al-C Alloys,” Conference Proceedings on Alternate Alloying for Environmental Resistance, pp 67-89 (1986).
24. Howell R. A., Lekakh S. L., and Van Aken D. C., “Quench Sensitivity of Cast Fe-30Mn-9Al-1Si-0.9C- 0.50Mo Lightweight Steel,” manuscript submitted to AIST Tech.
25. Pickering F. B., “Physical Metallurgy and Design of Steels,” London: Applied Science Publication, pp 51 (1978).
26. Olson G. B., Cohen M., “A General Mechanism of Martensitic Nucleation: Part I: General Concepts and the FCC to HCP Transformation,” Met. Trans. A, vol. 7A, pp 1897-1904 (1976).
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