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Method for producing ultrafine-grained materials using repetitive corrugation and straightening

국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • B21D-001/06
  • B21D-003/02
  • B21D-013/04
출원번호 US-0564696 (2000-05-04)
발명자 / 주소
  • Zhu Yuntian T.
  • Lowe Terry C.
  • Jiang Honggang
  • Huang Jianyu
출원인 / 주소
  • The United States of America as represented by the United States Department of Energy
대리인 / 주소
    Borkowsky
인용정보 피인용 횟수 : 57  인용 특허 : 7

초록

A method of refining the grain structure and improving the hardness and strength properties of a metal or metal alloy workpiece is disclosed. The workpiece is subjected to forces that corrugate and then straighten the workpiece. These steps are repeated until an ultrafine-grained product having impr

대표청구항

[What is claimed is:] [1.](a) bending a metal or alloy workpiece having opposing, substantially flat surfaces into a corrugated shape;(b) applying forces to the corrugated workpiece sufficient to substantially restore the flat surfaces and produce a finer-grained workpiece; and(c) repeating steps (a

이 특허에 인용된 특허 (7)

  1. Komatsubara Toshio (Fukaya JPX) Muramatsu Toshiki (Fukaya JPX) Matsuo Mamoru (Fukaya JPX), Aluminum-alloy rolled sheet and production method therefor.
  2. Oser Nathan (Perrineville NJ) Niedzinski Edmund John (Somerville NJ), Deeply embossed sheet product and method and apparatus for the production thereof.
  3. Semiatin Sheldon L. ; DeLo David P., Equal channel angular extrusion of difficult-to-work alloys.
  4. Segal Vladimir M., Method and apparatus for intensive plastic deformation of flat billets.
  5. Mahoney Murray W. (Camarillo CA) Ghosh Amit K. (Thousand Oaks CA), Method of forming a fine grain structure on the surface of an aluminum alloy.
  6. Segal Vladimir (1831A Wild Oak Cir. Bryan TX 77802), Plastic deformation of crystalline materials.
  7. Dunlop John Alden ; Yuan Jun ; Kardokus Janine Kiyabu ; Emigh Roger Alan, Sputtering target with ultra-fine, oriented grains and method of making same.

이 특허를 인용한 특허 (57)

  1. Pemberton, Corey E.; Rapp, Eric B.; Onesti, Robert J.; Longo, George, Assembly equipment line and method for windows.
  2. St. George, Lawrence J.; Konstorum, Gregory; Prats, Antonio E., Assembly fabrication and modification of elasticity in materials.
  3. Trpkovski, Paul, Box spacer with sidewalls.
  4. Chaudhury, Prabir K.; Srinivasan, Raghavan; Viswanathan, Srinath, Continuous severe plastic deformation process for metallic materials.
  5. Perry, Andrew C.; Gilman, Paul S.; Stuber, Wendell; Mathew, Binu, Controlled-grain-precious metal sputter targets.
  6. Perry,Andrew C.; Gilman,Paul S.; Stuber,Wendell; Mathew,Binu, Controlled-grain-precious metal sputter targets.
  7. Kling, Daniel H., Folding methods, structures and apparatuses.
  8. Zurn, Benjamin J.; Matthews, Gary R.; Shero, John Brian, Glazing unit spacer technology.
  9. Perry, Andrew C.; Gilman, Paul S.; Hunt, Thomas J., High-purity aluminum sputter targets and method of manufacture.
  10. Perry,Andrew C.; Gilman,Paul S.; Hunt,Thomas J., High-purity aluminum sputter targets and method of manufacture.
  11. Perry, Andrew C.; Koenigsmann, Holger J.; Dombrowski, David E.; Hunt, Thomas J., High-purity ferromagnetic sputter targets and method of manufacture.
  12. Perry, Andrew C.; Koenigsmann, Holger J.; Dombrowski, David E.; Hunt, Thomas J., High-purity ferromagnetic sputter targets and method of manufacture.
  13. Bryan, David J., Hot stretch straightening of high strength age hardened metallic form and straightened age hardened metallic form.
  14. Nonomura, Kiyoshi; Kurozumi, Koji; Inoue, Koji; Horiuchi, Hiroyuki, Metal plate forming method.
  15. Hiraoka, Akinao; Kondoh, Motonori; Kato, Tadakatsu; Niwa, Takahiro, Metallic molded sheet and heat shielding cover.
  16. Marquardt, Brian; Wood, John Randolph; Freese, Howard L.; Jablokov, Victor R., Metastable β-titanium alloys and methods of processing the same by direct aging.
  17. Trpkovski, Paul, Method of making a box spacer with sidewalls.
  18. Keener, Steven G.; Runyan, Max R., Method of preparing ultra-fine grain metallic articles and metallic articles prepared thereby.
  19. Keener,Steven G.; Runyan,Max R., Method of preparing ultra-fine grain metallic articles and metallic articles prepared thereby.
  20. Mann, James B.; Chandrasekar, Srinivasan; Compton, Walter Dale, Method of producing nanocrystalline monolithic articles.
  21. Forbes Jones, Robin M.; McDevitt, Erin T., Methods for processing alloys.
  22. Bryan, David J.; Mantione, John V.; Thomas, Jean-Philippe, Methods for processing titanium alloys.
  23. Bryan, David J.; Mantione, John V.; Thomas, Jean-Philippe, Methods for processing titanium alloys.
  24. Todaka,Hirotaka; Kadoma,Yoshiaki; Iida,Masataka, Partially reinforcing method and apparatus of metal material.
  25. Bryan, David J., Processing of alpha/beta titanium alloys.
  26. Hebda, John J.; Hickman, Randall W.; Graham, Ronald A., Processing of titanium-aluminum-vanadium alloys and products made thereby.
  27. Bryan, David J., Processing of α+β titanium alloys.
  28. Bryan, David J., Processing of α/β titanium alloys.
  29. Forbes Jones, Robin M.; Mantione, John V.; De Souza, Urban J.; Thomas, Jean-Philippe; Minisandram, Ramesh S.; Kennedy, Richard L.; Davis, R. Mark, Processing routes for titanium and titanium alloys.
  30. Bryan, David J., Production of high strength titanium.
  31. Nieminen, Raimo T.; Rapp, Eric B., Rotating spacer applicator for window assembly.
  32. Nieminen, Raimo T.; Rapp, Eric B., Rotating spacer applicator for window assembly.
  33. Trpkovski, Paul, Sealed unit and spacer.
  34. Trpkovski, Paul, Sealed unit and spacer.
  35. Trpkovski, Paul, Sealed unit and spacer.
  36. Rosochowski, Andrzej, Severe plastic deformation of metals.
  37. Zurn, Benjamin J.; Matthews, Gary R.; Shero, John Brian, Spacer for a multi-pane glazing unit.
  38. Zurn, Benjamin J.; Matthews, Gary R.; Shero, John Brian, Spacer for a multi-pane glazing unit.
  39. Trpkovski, Paul; Nieminen, Raimo T., Spacer joint structure.
  40. Thomas, Jean-Phillipe A.; Minisandram, Ramesh S.; Floder, Jason P.; Smith, Jr., George J., Split-pass open-die forging for hard-to-forge, strain-path sensitive titanium-base and nickel-base alloys.
  41. Rapp, Eric B.; Trpkovski, Paul; Matthews, Gary R., Stretched strips for spacer and sealed unit.
  42. Rapp, Eric B.; Trpkovski, Paul; Matthews, Gary R., Stretched strips for spacer and sealed unit.
  43. Ferrasse, Stephane; Hort, Werner H.; Kim, Jaeyeon; Alford, Frank C., Target designs and related methods for coupled target assemblies, methods of production and uses thereof.
  44. Perry, Andrew C.; Gilman, Paul S.; Van den Sype, Jaak, Textured-metastable aluminum alloy sputter targets and method of manufacture.
  45. Perry, Andrew C.; Gilman, Paul S.; Van den Sype, Jaak, Textured-metastable aluminum alloy sputter targets and method of manufacture.
  46. Forbes Jones, Robin M.; Rock, Christopher D., Thermo-mechanical processing of nickel-base alloys.
  47. Forbes Jones, Robin M.; Rock, Christopher D., Thermo-mechanical processing of nickel-base alloys.
  48. Thomas, Jean-Phillippe A.; Minisandram, Ramesh S.; Forbes Jones, Robin M.; Mantione, John V.; Bryan, David J., Thermomechanical processing of alpha-beta titanium alloys.
  49. Forbes Jones, Robin M.; Smith, Jr., George J.; Floder, Jason P.; Thomas, Jean-Philippe A.; Minisandram, Ramesh S., Thermomechanical processing of high strength non-magnetic corrosion resistant material.
  50. Foltz, IV, John W., Titanium alloy.
  51. Nieminen, Raimo T.; Ahnen, Richard; Terpstra, Paul; Rapp, David; Rapp, Eric B., Triple pane window spacer having a sunken intermediate pane.
  52. Heikkila, Kurt E.; Rapp, Eric B., Triple pane window spacer, window assembly and methods for manufacturing same.
  53. Perry, Andrew C.; Gilman, Paul S., Ultrafine-grain-copper-base sputter targets.
  54. Perry, Andrew C.; Gilman, Paul S., Ultrafine-grain-copper-base sputter targets.
  55. Nieminen, Raimo T.; Rapp, Eric B., Window spacer applicator.
  56. Pemberton, Corey E., Window unit assembly station and method.
  57. Pemberton, Corey E., Window unit assembly station and method.
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