Method and apparatus for treating articles during formation
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B22D-011/00
B22D-027/02
출원번호
US-0008048
(2004-12-09)
발명자
/ 주소
Forbes Jones,Robin M.
출원인 / 주소
ATI Properties, Inc.
대리인 / 주소
Kirkpatrick &
인용정보
피인용 횟수 :
28인용 특허 :
25
초록▼
A method of making an article includes forming a molten material by melting at least a portion of a mass of a metal and an alloy. The method further includes forming the article by solidifying at least a portion of the molten material within a mold, and contacting the article with plasma during for
A method of making an article includes forming a molten material by melting at least a portion of a mass of a metal and an alloy. The method further includes forming the article by solidifying at least a portion of the molten material within a mold, and contacting the article with plasma during formation of the article. A method for making an article also is disclosed wherein a molten material is formed by melting at least a portion of a mass of one of a metal and an alloy, the molten material is collected within a mold, and at least a portion of the molten material is magnetohydrodynamically stirred within the mold.
대표청구항▼
I claim: 1. A method of making an article, the method comprising: forming a molten material by melting at least a portion of a mass of one of a metal and an alloy; forming the article by solidifying at least a portion of the molten material within a mold; and contacting the article emerging from th
I claim: 1. A method of making an article, the method comprising: forming a molten material by melting at least a portion of a mass of one of a metal and an alloy; forming the article by solidifying at least a portion of the molten material within a mold; and contacting the article emerging from the mold with a plasma, wherein the plasma has a temperature that is less than a melting temperature of the article. 2. The method of claim 1, wherein melting at least a portion of the mass comprises at least one of vacuum arc remelting, electroslag remelting, and electron beam melting. 3. The method of claim 1, wherein the mass is a consumable electrode. 4. The method of claim 1, wherein the plasma is a non-equilibrium plasma. 5. The method of claim 1, wherein the plasma is provided by one of a corona discharge, a glow discharge, radio frequency energy, microwave energy, and radiation. 6. The method of claim 1, further comprising stirring at least a portion of the molten material within the mold. 7. The method of claim 6, wherein stirring at least a portion of the molten material within the mold comprises magnetohydrodynamic stirring. 8. The method of claim 7, wherein stirring at least a portion of the molten material within the mold occurs in a region of the molten material adjacent a wall of the mold. 9. The method of claim 1, wherein the mold is one of a withdrawal mold, a static mold, and a continuous casting mold. 10. The method of claim 1, wherein the mass is one of a superalloy, a steel, a stainless steel, a titanium alloy, a nickel-base superalloy and a cobalt-base superalloy. 11. The method of claim 1, wherein contacting the article with a plasma transfers heat from the article. 12. The method of claim 1, wherein contacting the article with a plasma transfers heat to the article. 13. An apparatus for melting and casting metals and/or alloys, the apparatus, comprising: a melting device including an outlet; a molten material mold in fluid communication with the outlet of the melting device; and a plasma generator positioned adjacent the mold and adapted to direct plasma against an object emerging from the mold, wherein the object is cast in the mold from the molten material. 14. The apparatus of claim 13, further comprising a magnetohydrodynamic stirring device positioned adjacent the mold and adapted to magnetohydrodynamically stir a molten material within the mold. 15. The apparatus of claim 13, wherein the mold is one of a withdrawal mold, a static mold, and a continuous casting mold. 16. The apparatus of claim 13, wherein the melting device is one of a vacuum arc remelting device, an electroslag remelting device, and an electron beam melting device. 17. The apparatus of claim 13, wherein the plasma is a non-equilibrium plasma. 18. A method of making an article, the method comprising: forming a molten material by melting at least a portion of a mass of one of a metal and an alloy; forming the article by solidifying at least a portion of the molten material within a mold; and transferring heat from the article by contacting the article emerging from the mold with a plasma.
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이 특허에 인용된 특허 (25)
Colclough Michael L. (Surrey GB2) Noakes Timothy J. (Hampshire GB2), Apparatus and process for producing powders and other granular materials.
Mahoney John F. (South Pasadena CA) Perel Julius (Altadena CA) Vickers Kenneth E. (Sierra Madre CA), Electrohydrodynamic spraying to produce ultrafine particles.
Del Vecchio Robert M. (Turtle Creek PA) Slepian Robert M. (Pittsburgh PA), Liquid metal electromagnetic flow control device incorporating a pumping action.
Seaman Frederic D. (Ludington MI) Rajagopal Srinivasan (Cupertino CA) Altergott William H. (Boulder Creek CA), Method and apparatus for forming ultrafine metal powders.
Forbes Jones, Robin M.; Kennedy, Richard L.; Conrad, Helmut Gerhard; Szylowiec, Ted; Conrad, Wayne; Phillips, Richard Stanley; Phillips, Andrew Richard Henry, Methods and apparatus for spray forming, atomization and heat transfer.
Knudsen Bruce Alan ; Zabala Robert John ; Benz Mark Gilbert ; Carter ; Jr. William Thomas ; Dupree Paul Leonard, Systems and methods for controlling the dimensions of a cold finger apparatus in electroslag refining process.
Oppenheimer, Scott; Forbes Jones, Robin M.; Mantione, John V.; Minisandram, Ramesh S.; Thomas, Jean-Philippe, Lubrication processes for enhanced forgeability.
Forbes Jones,Robin M.; Kennedy,Richard L.; Conrad,Helmut Gerhard; Szylowiec,Ted; Conrad,Wayne; Phillips,Richard Stanley; Phillips,Andrew Richard Henry, Methods and apparatus for spray forming, atomization and heat transfer.
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