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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0633682 (2009-12-08) |
등록번호 | US-9101978 (2015-08-11) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 13 인용 특허 : 437 |
A powder metal compact is disclosed. The powder metal compact includes a substantially-continuous, cellular nanomatrix comprising a nanomatrix material. The compact also includes a plurality of dispersed particles comprising a particle core material that comprises Mg, Al, Zn or Mn, or a combination
A powder metal compact is disclosed. The powder metal compact includes a substantially-continuous, cellular nanomatrix comprising a nanomatrix material. The compact also includes a plurality of dispersed particles comprising a particle core material that comprises Mg, Al, Zn or Mn, or a combination thereof, dispersed in the nanomatrix and a solid-state bond layer extending throughout the nanomatrix between the dispersed particles. The nanomatrix powder metal compacts are uniquely lightweight, high-strength materials that also provide uniquely selectable and controllable corrosion properties, including very rapid corrosion rates, useful for making a wide variety of degradable or disposable articles, including various downhole tools and components.
1. A powder metal compact, comprising: a substantially-continuous, cellular nanomatrix comprising a nanomatrix material;a plurality of dispersed particles comprising a particle core material that comprises Mg, Al, Zn or Mn, or a combination thereof, dispersed in the cellular nanomatrix; anda solid-s
1. A powder metal compact, comprising: a substantially-continuous, cellular nanomatrix comprising a nanomatrix material;a plurality of dispersed particles comprising a particle core material that comprises Mg, Al, Zn or Mn, or a combination thereof, dispersed in the cellular nanomatrix; anda solid-state bond layer extending throughout the cellular nanomatrix between the dispersed particles, the powder metal compact comprising deformed powder particles formed by compacting powder particles comprising a particle core and at least one coating layer, the coating layers joined by solid-state bonding to form the substantially-continuous, cellular nanomatrix and leave the particle cores as the dispersed particles. 2. The powder metal compact of claim 1, wherein the nanomatrix material has a melting temperature (TM), the particle core material has a melting temperature (TDP); wherein the compact is sinterable in a solid-state at a sintering temperature (TS), and TS is less than TM and TDP. 3. The powder metal compact of claim 1, wherein the particle core material comprises Mg—Zn, Mg—Zn, Mg—Al, Mg—Mn, or Mg—Zn—Y. 4. The powder metal compact of claim 1, wherein the core material comprises an Mg—Al—X alloy, wherein X comprises Zn, Mn, Si, Ca or Y, or a combination thereof. 5. The powder metal compact of claim 4, wherein the Mg—Al—X alloy comprises, by weight, up to about 85% Mg, up to about 15% Al and up to about 5% X. 6. The powder metal compact of claim 1, wherein the dispersed particles further comprise a rare earth element. 7. The powder metal compact of claim 1, wherein the dispersed particles have an average particle size of about 5 μm to about 300 μm. 8. The powder metal compact of claim 1, wherein the dispersion of dispersed particles comprises a substantially homogeneous dispersion within the cellular nanomatrix. 9. The powder metal compact of claim 1, wherein the dispersion of dispersed particles comprises a multi-modal distribution of particle sizes within the cellular nanomatrix. 10. The powder metal compact of claim 1, wherein the dispersed particles have an equiaxed particle shape. 11. The powder metal compact of claim 1, further comprising a plurality of dispersed second particles, wherein the dispersed second particles are also dispersed within the cellular nanomatrix and with respect to the dispersed particles. 12. The powder metal compact of claim 11, wherein the dispersed second particles comprise Fe, Ni, Co or Cu, or oxides, nitrides or carbides thereof, or a combination of any of the aforementioned materials. 13. The powder metal compact of claim 1, wherein the nanomatrix material comprises Al, Zn, Mn, Mg, Mo, W, Cu, Fe, Si, Ca, Co, Ta, Re or Ni, or an oxide, carbide or nitride thereof, or a combination of any of the aforementioned materials, and wherein the nanomatrix material has a chemical composition and the particle core material has a chemical composition that is different than the chemical composition of the nanomatrix material. 14. The powder metal compact of claim 1, wherein the cellular nanomatrix has an average thickness of about 50 nm to about 5000 nm. 15. The powder metal compact of claim 1, wherein the compact is formed from a sintered powder comprising a plurality of powder particles, each powder particle having a particle core that upon sintering comprises a dispersed particle and a single metallic coating layer disposed thereon, and wherein the cellular nanomatrix between adjacent ones of the plurality of dispersed particles comprises the single metallic coating layer of one powder particle, the bond layer and the single metallic coating layer of another of the powder particles. 16. The powder metal compact of claim 15, wherein the dispersed particles comprise Mg and the cellular nanomatrix comprises Al or Ni, or a combination thereof. 17. The powder metal compact of claim 1, wherein the compact is formed from a sintered powder comprising a plurality of powder particles, each powder particle having a particle core that upon sintering comprises a dispersed particle and a plurality of metallic coating layers disposed thereon, and wherein the cellular nanomatrix between adjacent ones of the plurality of dispersed particles comprises the plurality of metallic coating layers of one powder particle, the bond layer and plurality of metallic coating layers of another of the powder particles, and wherein adjacent ones of the plurality of metallic coating layers have different chemical compositions. 18. The powder metal compact of claim 17, wherein the plurality of layers comprises a first layer that is disposed on the particle core and a second layer that is disposed on the first layer. 19. The powder metal compact of claim 18, wherein the dispersed particles comprise Mg and the first layer comprises Al or Ni, or a combination thereof, and the second layer comprises Al, Zn, Mn, Mg, Mo, W, Cu, Fe, Si, Ca, Co, Ta, Re or Ni, or a combination thereof, wherein the first layer has a chemical composition that is different than a chemical composition of the second layer. 20. The powder metal compact of claim 19, metal powder of claim 18, further comprising a third layer that is disposed on the second layer. 21. The powder metal compact of claim 20, wherein the first layer comprises Al or Ni, or a combination thereof, the second layer comprises Al, Zn, Mn, Mg, Mo, W, Cu, Fe, Si, Ca, Co, Ta, Re or Ni, or an oxide, nitride or carbide thereof, or a combination of any of the aforementioned second layer materials, and the third layer comprises Al, Zn, Mn, Mg, Mo, W, Cu, Fe, Si, Ca, Co, Ta, Re or Ni, or a combination thereof, wherein the second layer has a chemical composition that is different than a chemical composition of the third layer. 22. The powder metal compact of claim 21, further comprising a fourth layer that is disposed on the third layer. 23. The powder metal compact of claim 22, wherein the first layer comprises Al or Ni, or a combination thereof, the second layer comprises Al, Zn, Mn, Mg, Mo, W, Cu, Fe, Si, Ca, Co, Ta, Re or Ni, or an oxide, nitride or carbide thereof, or a combination of any of the aforementioned second layer materials, the third layer comprises Al, Zn, Mn, Mg, Mo, W, Cu, Fe, Si, Ca, Co, Ta, Re or Ni, or an oxide, nitride or carbide thereof, or a combination of any of the aforementioned third layer materials, and the fourth layer comprises Al, Mn, Fe, Co or Ni, or a combination thereof, wherein the second layer has a chemical composition that is different than a chemical composition of the third layer and the third layer has a chemical composition that is different than a chemical composition of the third layer. 24. The powder metal compact of claim 1, wherein the solid-state bond is formed by solid-state bonding. 25. A powder metal compact, comprising: a substantially-continuous, cellular nanomatrix comprising a nanomatrix material;a plurality of dispersed particles comprising a particle core material that comprises a metal having a standard oxidation potential less than Zn, ceramic, glass, or carbon, or a combination thereof, dispersed in the cellular nanomatrix; anda solid-state bond layer extending throughout the cellular nanomatrix between the dispersed particles, the powder metal compact comprising deformed powder particles formed by compacting powder particles comprising a particle core and at least one coating layer, the coating layers joined by solid-state bonding to form the substantially-continuous, cellular nanomatrix and leave the particle cores as the dispersed particles. 26. The powder compact of claim 25, wherein the nanomatrix material comprises Al, Zn, Mn, Mg, Mo, W, Cu, Fe, Si, Ca, Co, Ta, Re or Ni, or an oxide, carbide or nitride thereof, or a combination of any of the aforementioned materials, and wherein the nanomatrix material has a chemical composition and the core material has a chemical composition that is different than the chemical composition of the nanomatrix material. 27. The powder metal compact of claim 25, wherein the solid-state bond is formed by solid-state bonding.
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