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Progress in the Development and Understanding of Ti3Al Based Intermetallic Materials

Published online by Cambridge University Press:  01 January 1992

Harry A. Lipsitt
Harry A. Lipsitt*
Affiliation:
Department of Mechanical and Materials Engineering, Wright State University, Dayton, Ohio 45435
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Abstract

Recent results on the development of Ti3AI base materials, including orthorhombic alloys, are reviewed. Included in this discussion are new data and ideas concerning alloy development, phase equilibria, processing for improved toughness and ductility, environmental degradation, oxidation and corrosion resistance, and coating development. Several new families of alloys have been developed in recent years and the microstruc-ture%processing%property relationships in these alloys are reviewed. It is shown that errors in processing this class of alloy can lead to microstructural instabilities under service conditions. Finally, some immediate needs and some directions for further development are suggested.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 288: Symposium L – High-Temperature Ordered Intermetallic Alloys V , 1992 , 119
Copyright
Copyright © Materials Research Society 1995

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References

REFERENCES

1. Lipsitt, H.A., in High Temperature Ordered Intermetallic Alloys, edited by Koch, C.C., Liu, C.T., and Stoloff, N.S. (Mater. Res. Soc. Proc. 39, Pittsburgh, PA, 1985) pp. 351364.Google Scholar
2. Koss, D.A., Banerjee, D., Lukasak, D.A., and Gogia, A.K., in High Temperature Aluminides and Intermetallics. edited by Whang, S.H., Liu, C.T., Pope, D.P., and Stiegler, J.O. (TMS, Warrendale, PA, 1990) pp. 175196; R.G. Rowe. in High Temperature Aluminides and Intermetallics. edited by S.H. Whang, C.T. Liu, D.P. Pope, and J.O. Stiegler (TMS, Warrendale, PA, 1990), pp.375401 ; Y.W. Kim and F.H. Froes, in High Temperature Aluminides and Intermetallics. edited by S.H. Whang, C.T. Liu, D.P. Pope, and J.O. Stiegler (TMS, Warrendale, PA, 1990), pp. 465492; J.M. Larsen, K.A. Williams, S.J. Balsone, and M.A. Stucke, in High Temperature Aluminides and Intermetallics. edited by S.H. Whang, C.T. Liu, D.P. Pope, and J.O. Stiegler (TMS, Warrendale, PA, 1990), pp. 521556.Google Scholar
3. Ward, C.H., International Metallurgical Reviews, in press, 1992.Google Scholar
4. Banerjee, D., in Intermetallic Compounds: Principles and Practice, edited by Westbrook, J.H. and Fleischer, R.L. (John Wiley, Ltd., London, 1993), to be published.Google Scholar
5. Blackburn, M.J., Ruckle, D.L., and Bevan, C.E., AFML-TR-78-18 (1978).Google Scholar
6. Blackburn, M.J. and Smith, M.P., AFML-TR-82-4086 (1982).Google Scholar
7. Blackburn, M.J. and Smith, M.P., WRDC-TR-89-4095 (1989).Google Scholar
8. Marquardt, B.J., Scarr, G.K., Chesnutt, J.C., Rhodes, C.G., and Fraser, H.L., WRDC-TR-89-4133 (1989).Google Scholar
9. Marquardt, B.J. and Kreuger, D.D., in the Proceedings, 7th World Conference on Titanium, edited by Froes, F.H. and Caplan, I. (TMS-AIME, Warrendale, PA, 1993), to be published.Google Scholar
10. Chesnutt, J.C., in Superalloys 92. edited by Antolovich, S.D., Strusrud, R.W., MacKay, R.A., Anton, D.L., Khan, T., Kissinger, R.D., and Klarstrom, D.L. (TMS-AIME, Warrendale, Pa, 1992), pp.381389.Google Scholar
11. Gray, George T., Ig Hong, Sun, and Marquardt, B.J., in the Proceedings. 7th World Conference on Titanium, edited by Froes, F.H. and Caplan, I. (TMS-AIME, Warrendale, PA, 1993), to be published.Google Scholar
12. Maurer, Norbert O., Saqib, Mohammad, and Lipsitt, Harry A., in the Proceedings. 7th World Conference on Titanium, edited by Froes, F.H. and Caplan, I. (TMS-AIME, Warrendale, PA, 1993), to be published.Google Scholar
13. Bartz, A., Marquardt, B., and Lipsitt, H.A., presented at the TMS Annual Meeting, Denver, Co., 22 February 1993 (unpublished).Google Scholar
14. Ward, C.H., Williams, J.C., and Thompson, A.W., Scripta Metallurgica et Materialia 24, 617 (1990).Google Scholar
15. Szaruga, A., Saqib, M., Omlor, R., and Lipsitt, H.A., Scripta Metallurgica et Materialia 26, 787 (1992).Google Scholar
16. Arrell, D.J., Flower, H.M., and Kerry, S., in the Proceedings. 7th World Conference on Titanium, edited by Froes, F.H. and Caplan, I. (TMS-AIME, Warrendale, PA, 1993), to be published.Google Scholar
17. Kerry, S., in the Proceedings. 7th World Conference on Titanium, edited by Froes, F.H. and Caplan, I. (TMS-AIME, Warrendale, PA, 1993), to be published.Google Scholar
18. Murray, J.L., in Binary Alloy Phase Diagrams, 2nd Edition, edited by Massalski, T.B., Okamoto, H., Subramanian, P.R., and Kacprzak, L. (ASM International, Materials Park, OH, 1990), pp.33673371.Google Scholar
19. Ehrhart, I. and Vassell, A., in the Proceedings. 7th World Conference on Titanium, edited by Froes, F.H. and Caplan, I. (TMS-AIME, Warrendale, PA, 1993), to be published.Google Scholar
20. Banerjee, D., Acta Met. et Mat. 36, 871 (1988).Google Scholar
21. Banerjee, D., Rowe, R.G., and Hall, E.L. in High Temperature Ordered Intermetallic Alloys - IV. edited by Johnson, L.A., Pope, D.P., and Stiegler, J.O. (Mater. Res. Soc. Proc. 213, Pittsburgh, PA, 1991) pp.285290.Google Scholar
22. Rowe, R.G., in Microstructure/Propertv Relationships in Titanium Aluminides and Alloys. edited by Kim, Y-W. and Boyer, R.R. (TMS-AIME, Warrendale, PA, 1991) p. 387.Google Scholar
23. Rowe, R.G., Konitzer, D.G., Woodfield, A.P., and Chesnutt, J.C. in High Temperature Ordered Intermetallic Alloys - IV. edited by Johnson, L.A., Pope, D.P., and Stiegler, J.O. (Mater. Res. Soc. Proc. 213, Pittsburgh, PA, 1991) pp. 703708.Google Scholar
24. Rowe, R.G., in the Proceedings. 7th World Conference on Titanium, edited by Froes, F.H. and Caplan, I. (TMS-AIME, Warrendale, PA, 1993), to be published.Google Scholar
25. Rowe, R.G. (private communication), 16 November 1992.Google Scholar
26. Rhodes, C.G. (private communication), 17 November 1992.Google Scholar
27. Graves, J.A. (private communication), 18 November 1992.Google Scholar
28. Graves, J.A., Smith, P.R., and Rhodes, C.G. in Intermetallic Matrix Composites – II, edited by Anton, D.L., Miracle, D.B., and Graves, J.A., (Mater. Res. Soc. Proc. 273, Pittsburgh, PA, 1992) pp.3142.Google Scholar
29. Smith, P.R., Graves, J.A., and Rhodes, C.G. in Intermetallic Matrix Composites - II. edited by Anton, D.L., Miracle, D.B., and Graves, J.A., (Mater. Res. Soc. Proc. 273, Pittsburgh, PA, 1992) pp.4352.Google Scholar
30. Russ, S.M., Metall. Trans. A 21, 1592 (1990).Google Scholar
31. Revelos, W.C. and Smith, P.R., Metall. Trans. A 23, 587 (1992).Google Scholar
32. Banerjee, D., Nandy, T.K., Gogia, A.K., Muraleedharan, K., in the Proceedings, Sixth World Conference on Titanium, edited by Lacombe, P., Tricot, R., and Beranger, G. (J. de Physique, Les Ulis, France, 1989) pp. 10911096.Google Scholar
33. Perepezko, J.H., Chang, Y.A., Seitzman, L.E., Lin, J.C., Bonda, N.R., Jewett, T.J., and Mishurda, J.C., in High Temperature Aluminides and Intermetallics, edited by Whang, S.H., Liu, C.T., Pope, D.P., and Stiegler, J.O. (TMS, Warrendale, PA, 1990) pp.1947.Google Scholar
34. Muraleedharan, K., Gogia, A.K., Nandy, T.K., Banerjee, D., and Lele, S., Metall. Trans. 23A, 401 (1992).Google Scholar
35. Rowe, R.G., Banerjee, D., Muraleedharan, K., Larsen, M., Hall, E.L., Konitzer, D.G., and Woodfield, A.P., in the Proceedings. 7th World Conference on Titanium, edited by Froes, F.H. and Caplan, I. (TMS-AIME, Warrendale, PA, 1993), to be published.Google Scholar
36. Balsone, S.J., in Oxidation of High Temperature Intermetallics, edited by Grobstein, T. and Doychak, J. (TMS-AIME, Warrendale, PA, 1988) pp. 219234.Google Scholar
37. Ward, C.H. and Balsone, S.J., in Microstructure/Propertv Relationships in Titanium Aluminides and Alloys. edited by Kim, Y-W. and Boyer, R.R (TMS-AIME, Warrendale, PA, 1991) pp. 373386.Google Scholar
38. DeLuca, D.P., Cowles, B.A., Haake, F.K., and Holland, K.P., WRDC-TR-89-4136 (1990).Google Scholar
39. Godavarti, P.S., Lipshutz, M.D., Snow, J.G., and Hall, J.A., in the Proceedings, 7th World Conference on Titanium, edited by Froes, F.H. and Caplan, I. (TMS-AIME, Warrendale, PA, 1993), to be published.Google Scholar
40. Meier, G.H., Appalonia, D., Perkins, R.A., and Chiang, K.T., in Oxidation of High Temperature Intermetallics, edited by Grobstein, T. and Doychak, J. (TMS-AIME, Warrendale, PA, 1989) pp. 185193; Wiedeman, K.E., Sankaran, S.N., Clark, R.K., and Wallace, T.A., in Oxidation of High Temperature Intermetallics, edited by Grobstein, T. and Doychak, J. (TMS-AIME, Warrendale, PA, 1989), pp. 195206; G. Welsch and A.I. Kahveci, in Oxidation of High Temperature Intermetallics, edited by T. Grobstein and J. Doychak (TMS-AIME, Warrendale, PA, 1989), pp.207218.Google Scholar
41. Schaeffer, J.C., General Electric Report R92-AEB-248, September 29, 1992, submitted to Scripta Met. et Mat., October 1992.Google Scholar
42. Rahmel, A. and Spencer, P.J., J. Oxid. Metals, 35, 53 (1991).Google Scholar
43. Luthra, K.L., General Electric-CRD Tech. Infor. Ser. 90CRD177, August 1990.Google Scholar
44. Perkins, R.A., Chiang, K.T., Meier, G.H., and Miller, R., in Oxidation of High Temperature Intermetallics, edited by Grobstein, T. and Doychak, J. (TMS-AIME, Warrendale, Pa, 1989) pp.157169.Google Scholar
45. McCarron, R.L., Schaeffer, J.C., Meier, G.H., Bertztiss, D., Perkins, R.A., and Cullinan, J., in the Proceedings, 7th World Conference on Titanium, edited by Froes, F.H. and Caplan, I. (TMS-AIME, Warrendale, PA, 1993), to be published.Google Scholar