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Compatibility of Energy and Aerospace Interests in Titanium

  • Physical & Mechanical Metallurgy
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References

  1. R. A. Wood, “Titanium Utilization and Availability.” Metals and Ceramics Information Center Current Awareness Bulletin, No. 102 and 103, 1981.

  2. R. I. Jaffee, “An Overview on Titanium Development and Application.” Titanium Science and Technology’ 80, Proceedings of the Fourth International Conference on Titanium, 1980.

  3. H. M. Burte and H. L. Gegel, Process Modeling — Fundamentals and Applications to Metals, ASM Materials/Metalworking Technology Series, 1980, pp. 1–26.

  4. H. M. Burte, “Technology Opportunities for a More Stable Supply of Titanium,” Proceedings of Workshop on “Conservation and Substitution Technology for Critical Materials.” Nashville, Tennessee, 1981 (in press).

  5. R. I. Jaffee and H. M. Burte, Preface to Titanium Science and Technology, Proceedings of the Second International Conference on Titanium, 1972.

  6. W. M. Minkler, “Titanium in 1980,” Journal of Metals, 33 (4), April 1981, pp. 41–44.

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  7. N. G. Tupper, J. K. Elbaum and H. M. Burte, “Opportunities for Cost-Affordable Titanium Aerospace Structures,” Journal of Metals, 30 (9) September 1978, pp. 7–13.

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  8. F. H. Froes, D. Eylon, G. E. Eichelman and H. M. Burte, “Developments in Titanium Powder Metallurgy,” Journal of Metals, 32 (2), February 1980, pp. 47–54.

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  9. D. Eylon and F. H. Froes, “High Integrity Titanium Alloy Shapes by Powder Metallurgy,” presented at the Symposium on Titanium and Its Alloys for Surgical Implants, to be published by the ASTM (1982).

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Authors
  1. Harris M. Burte
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  2. Daniel Eylon
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Additional information

Harris M. Burte, Director, Metals & Ceramics Division, U.S. Air Force Materials Laboratory, WrightPatterson Air Force Base, Ohio 45433. Dr. Burte received his formal education at New York University, Massachusetts Institute of Technology, and Princeton University, receiving his PhD in chemical engineering from Princeton in 1950. Since 1956 he has held several civilian positions, including engineer - materials, Air Force Aeronautical Systems Division, and chief scientist of the Air Force Materials Laboratory. He is a member of The Metallurgical Society of AIME.

D. Eylon, Principal Investigator, Metcut, Materials Research Group, P.O. Box 33511, WrightPatterson Air Force Base, Ohio 45433. Dr. Eylon received his BS in mechanical engineering, MS in materials engineering, and OS in materials engineering from the Technion-Israel Institute of Technology. He has worked in the United States since 1972 on research programs in the area of titanium alloys for the aerospace industry. He is a member of The Metallurgical Society of AIME.

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Burte, H.M., Eylon, D. Compatibility of Energy and Aerospace Interests in Titanium. JOM 34, 20–22 (1982). https://doi.org/10.1007/BF03337974

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  • DOI: https://doi.org/10.1007/BF03337974

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