References

1. H. B. Bomberger, F. H. (Sam) Froes, and P. H. Morten, in F. H. (Sam) Froes, D. Eylon, and H. B. Bomberger (Eds.), Titanium Technology: Present Status and Future Trends, Titanium Development Association, Dayton, OH, 1985, pp. 3-18.

2. S. R. Seagle and J. R. Wood, in F. H. (Sam) Froes and T. Khan (Eds.), Synthesis, Processing and Modelling of Advanced Materials, Vol. 77-78, Trans. Tech. Publications, Brookville, VT, 1993, pp. 91-102.

3. F. H. (Sam) Froes, Light Metal Age, 53(9 & 10), 6-9 (1995).

4. F. H. (Sam) Froes, Third ASM Intl. Paris Conf. on Synthesis, Processing and Modeling of Advanced Materials, ASM Intl., Materials Park, OH, 1997, pp. 3-38.

5. F. H. (Sam) Froes, P. G. Allen, and M. Niiomi, in F. H. (Sam) Froes, P. G. Allen, and M. Niiomi (Eds.), Non-aerospace Applications of Titanium, TMS, Warrendale, PA, 1998, pp. 3-20.

6. R. P. Pawlek and F. H. Froes, Light Metal Age, 57(9 & 10), 55-61 (1999).

7. F. H. (Sam) Froes, Light Metal Age, 58(3 & 4), 76-79 (2000).

8. S. S. Joseph and F. (Sam) H. Froes. Light Metal Age, 4-6(11-12), 5-12 (1988).

9. I. J. Polmear, Light Alloys, Metallurgy of the Light Metals, 3rd Ed., Edward Arnold, London, 1996.

10. E. K. Molchanova, Phase Diagrams of Titanium Alloys [transl. of Atlas Diagram Sos-toyaniya Titanovyk Splavov ], Israel Program for Scientific Translations, Jerusalem, 1995.

11. H. Margolin and H. Neilson, "Titanium Metallurgy," in H. H. Hauser (Ed.), Modern Materials, Advances in Development and Applications, Vol. 2, Academic Press, Princeton, NJ, 1960, pp. 225-325.

12. F. H. (Sam) Froes, D. Eylon, and H. B. Bomberger (Eds.), Titanium Technology: Present Status and Future Trends, Titanium Development Association, Dayton, OH (now the International Titanium Association, Bolder, CO), 1985.

13. F. H. (Sam) Froes, C. Suryanarayana, and D. Eliezer, ISIJ Intl., 31, 1235-1248

14. F. H. (Sam) Froes, C. Suryanarayana, and D. Eliezer, J. Mater. Sci., 27, 5113-5140

15. F. H. (Sam) Froes, J. Mater. Sci. Technol., 10, 251-262 (1994).

16. C. M. Ward, Int. Mats. Rev., 38(2), 79-101 (1993).

17. B. H. Kear, Scientific Am., 255(4), 158-167 (1986).

18. F. H. (Sam) Froes and D. Eylon. Int. Mats. Rev., 35(3), 162-182 (1990).

19. F. H. (Sam) Froes and C. Suryanarayana, in A. Bose, R. M. German, and A. Lawley (Eds.), Reviews in Particulate Materials, Vol. 1, MPIF, Princeton, NJ, 1993, pp. 223-275.

20. F. H. (Sam) Froes, C. Suryanarayana, K. C. Russell, and C. M. Ward-Close, in J. Singh and S. M. Copely (Eds.), Int. Conf. on Novel Techniques in Synthesis and Processing of Advanced Materials, TMS, Warrendale, PA, 1995, pp. 1-22.

21. C. M. Ward-Close and F. H. (Sam) Froes, JOM, 46(1), 28-31 (1994).

22. R. MacKay, P. Bindley, and F. H. (Sam) Froes, JOM, 43(5), 23-29 (1992).

23. D. Upadhyaya, M. Wood, C. M. Ward-Close, P. Tsakiropoulos, and F. H. (Sam) Froes, JOM, Nov., 62-67 (1994).

24. F. H. (Sam) Froes, Light Metal Age, 49(5/6), 6-11 (1991).

25. R. R. Boyer, G. Welsch, and E. W. Collings, Materials Properties Handbook: Titanium Alloys, ASM Int., Materials Park, OH, 1994.

26. M. J. Donachie, Jr. Titanium, A Technical Guide, ASM International, Materials Park, OH, 1988.

27. R. R. Boyer and J. A. Hall, in F. H. (Sam) Froes and I. L. Caplan (Eds.), Titanium '92, Science and Technology, Vol. 1, TMS, Warrendale, PA, 1993, pp. 77-88.

28. F. H. (Sam) Froes and D. Eylon, in N. R. Moody and A. W. Thompson (Eds.), Hydrogen Effects on Material Behavior, TMS, Warrendale, PA, 1990, pp. 261-284.

29. O. N. Senkov, J. J. Jonas, and F. H. (Sam) Froes, JOM, July, 42-47 (1996).

30. F. H. (Sam) Froes and J. Hebeisen, in L. Delaey and H. Tas (Eds.), Hot Isostatic Pressing '93, Elsevier, London, UK, 1994, pp. 71-90.

31. F. H. (Sam) Froes, R. Widmer, and J. Hebeisen, in F. H. (Sam) Froes, F. Widmer, and J. Hebeisen (Eds.), Proc. Conf. Hot Isostatic Pressing '96, ASM Intl., Materials Park, OH, 1996, pp. 3-18.

32. F. H. (Sam) Froes and W. A. Baeslack, in J. C. Danko and E. E. Noltin (Eds.), High Energy Electron Beam Welding and Materials Processing, AWS, Miami, FL, 1993, pp. 219-241.

33. P. R. Smith and F. H. (Sam) Froes, JOM, 36(3), 19-26 (1984).

34. D. Driver, in E. Bachelet et al. (Eds.), High Temperature Materials for Power Engineering, Kluwer Academic, New York, NY, Part II, 1990, pp. 883-903.

35. J. B. Guernsey, V. C. Petersen, and F. H. (Sam) Froes, Met. Trans., 3, 339-341 (1972).

36. P. H. Morton (Ed.), Designing with Titanium, Inst. Metals, London, 1986.

37. J. C. Fanning, P. A. Blenkinsop, W. J. Evans and H. M. Flower (Eds.), Titanium '95, Vol. II, Inst. Materials, London, 1996, pp. 1688-1695.

38. F. H. (Sam) Froes, Light Metal Age, 55(1 and 2), 66-73 (1997).

39. J. Ott and P. Proctor, Aviation Week and Space Tech., 152(2), 44 and 50 (2000).

40. C. M. Ward-Close, Defense Evaluation and Research Agency (DERA), Farnborough, UK, private communication, Feb. 2000.

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