Product and method of brazing using kinetic sprayed coatings
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B32B-015/01
B05D-001/02
출원번호
US-0418244
(2003-04-16)
발명자
/ 주소
Gillispie, Bryan A.
Zhao, Zhibo
Smith, John Robert
Van Steenkiste, Thomas Hubert
Elmoursi, Alaa A.
Luo, Yang
Hutchins, Hartley F.
출원인 / 주소
Delphi Technologies, Inc.
인용정보
피인용 횟수 :
7인용 특허 :
81
초록▼
The present invention is directed to a process for preparing aluminum and aluminum alloy surfaces in heat exchangers for brazing by depositing thereon a kinetic sprayed brazing composition. The process simultaneously deposits monolith or composite coatings that can include all braze materials and co
The present invention is directed to a process for preparing aluminum and aluminum alloy surfaces in heat exchangers for brazing by depositing thereon a kinetic sprayed brazing composition. The process simultaneously deposits monolith or composite coatings that can include all braze materials and corrosion protection materials used in the brazing of aluminum fins to plates and tubes in a single stage.
대표청구항▼
1. A process for forming a brazing composition and bonding it to an aluminum surface comprising:a. selecting a brazing composition comprising particles of a monolith of zinc-aluminum alloy, aluminum-silicon alloy, aluminum-zinc-silicon alloy or aluminum-zinc-silicon-copper alloy or a composite selec
1. A process for forming a brazing composition and bonding it to an aluminum surface comprising:a. selecting a brazing composition comprising particles of a monolith of zinc-aluminum alloy, aluminum-silicon alloy, aluminum-zinc-silicon alloy or aluminum-zinc-silicon-copper alloy or a composite selected from a combination of at least two of the following: zinc, zinc-aluminum alloy, aluminum, silicon, aluminum-silicon alloy, aluminum-zinc-silicon alloy, and aluminum-zinc-silicon-copper alloy; b. introducing said brazing composition into a focused gas stream; c. entraining said brazing composition in said gas stream; d. accelerating said brazing composition in said gas stream toward an aluminum surface; e. impacting said brazing composition onto said aluminum surface thereby kinetically bonding said brazing composition to said aluminum surface, said brazing composition remaining in its original solid phase upon bonding to said aluminum surface. 2. The process of claim 1, wherein said particles of said brazing composition are accelerated in said gas stream to a velocity of about 300 to about 1000 meters per second.3. The process of claim 1, further comprising pre-heating said gas stream to a temperature of about 300° C.4. The process of claim 1 further comprising in step a. the step of adding to said brazing composition particles of a brazing flux.5. The process of claim 4 comprising adding particles of a brazing flux comprising potassium fluoroaluminate salts.6. A brazable aluminum substrate comprising an aluminum surface and a kinetically impinged coating bonded thereon, wherein said coating is a solid phase monolith of zinc-aluminum alloy, aluminum-silicon alloy, aluminum-zinc-silicon alloy or aluminum-zinc-silicon-copper alloy or a composite selected from a combination of at least two of the following: zinc, zinc-aluminum alloy, aluminum, silicon, aluminum-silicon alloy, aluminum-zinc-silicon alloy, and aluminum-zinc-silicon-copper alloy; said coating kinetically bonded to said aluminum surface and being substantially free of oxidation within said coating, and which substantially retains the same physical properties and solid phase as the coating prior to bonding.7. The brazable aluminum substrate of claim 6 wherein said coating further comprises brazing flux.8. The brazable aluminum substrate of claim 7 wherein said flux comprises potassium fluoroaluminate salts.9. A method of forming a brazing surface comprising:providing a metal surface; providing a brazing composition comprising at least two of a corrosion protector material, a brazing filler material, and a flux material; and kinetically spraying said brazing composition onto said metal surface, thereby kinetically bonding said brazing composition to said metal surface. 10. The method of claim 9, comprising providing aluminum as said metal surface.11. A process for forming a brazing composition and bonding it to a surface comprising:a. selecting a brazing composition comprising particles of a monolith of zinc-aluminum alloy, aluminum-silicon alloy, aluminum-zinc-silicon alloy or aluminum-zinc-silicon-copper alloy or a composite selected from a combination of at least two of the following: zinc, zinc-aluminum alloy, aluminum, silicon, aluminum-silicon alloy, aluminum-zinc-silicon alloy, and aluminum-zinc-silicon-copper alloy; b. introducing said brazing composition into a focused gas stream; c. entraining said brazing composition in said gas stream; d. accelerating said brazing composition in said gas stream toward said surface; e. impacting said brazing composition onto said surface thereby kinetically bonding said brazing composition to said surface, said brazing composition remaining in its original solid phase on said surface. 12. A brazable substrate comprising a metal surface and a kinetically impinged coating bonded thereon, wherein said coating is a solid phase monolith of zinc-aluminum alloy, aluminum-silicon alloy, aluminum-zinc-silicon alloy or aluminum-zinc-silicon-copper alloy or a composite selected from a combination of at least two of the following: zinc, zinc-aluminum alloy, aluminum, silicon, aluminum-silicon alloy, aluminum-zinc-silicon alloy, and aluminum-zinc-silicon-copper alloy; said coating kinetically bonded to said metal surface and being substantially free of oxidation within said coating, and which substantially retains the same physical properties and solid phase as the coating prior to its bonding.13. A process for forming a brazing composition and bonding it to a metal surface comprising:a. selecting a brazing composition comprising particles of a solid phase monolith of zinc-aluminum alloy, aluminum-silicon alloy, aluminum-zinc-silicon alloy or aluminum-zinc-silicon-copper alloy or a composite selected from a combination of at least two of the following: zinc, zinc-aluminum alloy, aluminum, silicon, aluminum-silicon alloy, aluminum-zinc-silicon alloy, and aluminum-zinc-silicon-copper alloy; b. introducing said brazing composition into a focused gas stream pre-heated to a temperature sufficiently low to maintain said particles in their original solid phase; c. entraining said brazing composition in said gas stream; d. accelerating said brazing composition in said gas stream toward said metal surface; e. impacting said brazing composition onto said metal surface thereby kinetically bonding said brazing composition to said metal surface, said brazing composition remaining in its original solid phase upon bonding to said metal surface.
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