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Joining II. Brazing and Soldering

  • L. A. Grant

Abstract

The requirement for improved heat resistance in lightweight structures lends itself naturally to brazing. Metallurgical joining of the unique material, beryllium, enables structural engineers and designers to avail themselves of efficient material utilization. This chapter section will discuss low-temperature brazing (soldering), medium-temperature brazing using aluminum-base fillers, and high-temperature brazing using silver-base fillers.

Keywords

Shear Strength Filler Metal Braze Alloy Faying Surface Braze Temperature 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. 1.
    Brazing Manual, American Welding Society, New York (1963).Google Scholar
  2. 2.
    Indalloy Corporation, Alloy No. 3.Google Scholar
  3. 3.
    Electrofusion Corporation (Grant and Kamper, Inc. subsidiary) under contract with Litton Industries (1973)Google Scholar
  4. 4.
    Electrofusion Corporation (Grant and Kamper, Inc. subsidiary) under contract with Hughes Aircraft Co. (1974).Google Scholar
  5. 5.
    J. V. Long and G. D. Cremer. Beryllium: Brazing and Welding, SAE Paper 680651, (October 1968 ). Solar Division of International Harvester Co. ( October 1968 ).Google Scholar
  6. 6.
    R. N. Kelly. Beryllium Structures, pp. 64–73, Space/Aeronautics (July 1964). 7, Brush Wellman Specifications, BBC-PF-100.Google Scholar
  7. 8.
    L. A. Grant, Shear Strengths of Aluminum Brazed Beryllium vs. Brazing Parameters, Master’s Thesis, San Diego State College (June 1971).Google Scholar
  8. 9.
    Electrofusion Corporation and RCA (1975).Google Scholar
  9. 10.
    Electrofusion Corporation (1974).Google Scholar
  10. 11.
    Electrofusion Corporation under contract with American Science and Engineering (1976). R. A. Paquin and W. R. Goggin, Beryllium Mirror Technology, State-of-the-Art Report 1S11393, Perkin-Elmer Optical Group, Norwalk, Connecticut (December 1972 ).Google Scholar
  11. 13.
    G. D. Cremer, L. A. Grant, and L. F. Karner, Structural Beryllium Sheet for Spacecraft Use, AIAA Paper No, 72–404, New York (April 1972).Google Scholar
  12. 14.
    Electrofusion Corporation under contract with Pratt and Whitney Aircraft Group (1976).Google Scholar
  13. 15.
    Solar, Division of International Harvester under contract with Perkin-Elmer Corporation (1971).Google Scholar
  14. 16.
    Electrofusion Corporation under contract with Aeronutronic Ford Corp. (1976).Google Scholar
  15. 17.
    L. A. Grant, Successful Applications of Fabricated Beryllium Structures on Satellites, Beryllium Conference, September 1977, London, England.Google Scholar
  16. 18.
    L. A. Grant and L. F. Kamper, Beryllium Fabrication Techniques and Their Related Applications, presented at the 20th National SAMPE Symposium and Exhibition. April 1975.Google Scholar
  17. 19.
    Electrofusion Corporation under contract with Hughes Aircraft Company, Culver City, on Thematic Mapper.Google Scholar
  18. 20.
    G. D. Cremer, J. R. Woodward, and L. A. Grant, Beryllium Brazing Technology, SAE Paper 670805, Solar Division of International Harvester Co. ( October 1967 ).Google Scholar
  19. 21.
    A. R. Pfluger and L. A. Grant, Beryllium Joining Improved Techniques, Lockheed Missiles and Space Co., Manufacturing Research Investigation (May 1973).Google Scholar
  20. 22.
    Electrofusion Corporation under contract with Rockwell International, Rocketdyne Division (1977).Google Scholar

Copyright information

© Springer Science+Business Media New York 1979

Authors and Affiliations

  • L. A. Grant
    • 1
  1. 1.Electrofusion CorporationMenlo ParkUSA

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