[특허]Methods for manufacturing three-dimensional devices and devices created thereby

Appleby,Michael P.; Fraser,Iain; Atkinson,James E.

Methods for manufacturing three-dimensional devices and devices created thereby

국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	B29C-033/40
출원번호	US-0479335 (2002-06-05)
등록번호	US-7410606 (2008-08-12)
국제출원번호	PCT/US02/017936 (2002-06-05)
§371/§102 date	20031201 (20031201)
국제공개번호	WO02/098624 (2002-12-12)
발명자 / 주소	Appleby,Michael P. Fraser,Iain Atkinson,James E.
출원인 / 주소	Appleby,Michael P. Fraser,Iain Atkinson,James E.
대리인 / 주소	Michael Haynes PLC
인용정보	피인용 횟수 : 112 인용 특허 : 220

초록 ▼

A process of making a casting includes the steps of designing a mold (1010), fabricating the layers (or laminations) of the mold (1020), stacking and assembling the laminations into a mold (1030), producing a casting (1060) and demolding the casting (1070). If necessary, a derived mold can be made (

대표청구항 ▼

What is claimed is: 1. A method of forming a casting, comprising: filling a mold having a stacked plurality of lithographically-derived micro-machined metallic foil layers with a first casting material to form a first cast product having an aspect ratio of greater than 10:1, the stacked plurality of lithographically-derived micro-machined metallic foil layers defining a protruding undercut; and demolding the first cast product from the mold, said first cast product comprising a plurality of product surfaces that define a periphery of a layer-less volume of said first cast product, a product surface from said plurality of product surfaces comprising a plurality of 3-dimensional micro-features that substantially spatially invertedly replicate a mold surface formed by said stacked plurality of metallic foil layers. 2. The method of claim 1, further comprising providing the mold. 3. The method of claim 1, further comprising, for each of the stacked plurality of lithographically-derived micro-machined layers, designing a feature associated with the layer. 4. The method of claim 1, further comprising designing a feature associated with all of the stacked plurality of lithographically-derived micro-machined layers of the mold. 5. The method of claim 1, further comprising micro-machining each of the stacked plurality of lithographically-derived micro-machined layers. 6. The method of claim 1, further comprising, for each of the stacked plurality of lithographically-derived micro-machined layers, micro-machining a feature associated with the layer. 7. The method of claim 1, further comprising micro-machining a feature associated with all of the stacked plurality of lithographically-derived micro-machined layers. 8. The method of claim 1, further comprising stacking the stacked plurality of lithographically-derived micro-machined layers. 9. The method of claim 1, further comprising aligning the stacked plurality of lithographically-derived micro-machined layers. 10. The method of claim 1, further comprising bonding the stacked plurality of lithographically-derived micro-machined layers. 11. The method of claim 1, further comprising clamping the stacked plurality of lithographically-derived micro-machined layers. 12. The method of claim 1, further comprising securing the stacked plurality of lithographically-derived micro-machined layers. 13. The method of claim 1, further comprising affixing the stacked plurality of lithographically-derived micro-machined layers. 14. The method of claim 1, further comprising fabricating the mold. 15. The method of claim 1, further comprising allowing the first casting material to solidify to form the first cast product. 16. The method of claim 1, further comprising surrounding the first cast product with a second casting material. 17. The method of claim 1, further comprising surrounding the first cast product with a second casting material and allowing the second casting material to solidify into a second cast product. 18. The method of claim 1, further comprising surrounding the first cast product with a second casting material and allowing the second casting material to solidify into a nonplanar second cast product. 19. The method of claim 1, further comprising forming the first cast product into a non-planar shape. 20. The method of claim 1, further comprising forming the first cast product into a non-planar shape and surrounding the formed first cast product with a second casting material and allowing the second casting material to solidify into a nonplanar second cast product. 21. The method of claim 1, further comprising surrounding the first cast product with a second casting material and demolding a second cast product formed from the second casting material. 22. The method of claim 1, wherein the first casting material comprises a flexible polymer. 23. The method of claim 1, wherein the first casting material comprises an elastomer. 24. The method of claim 1, wherein the first casting material comprises silicone rubber. 25. The method of claim 1, wherein the stacked plurality of lithographically-derived micro-machined layers define a cavity having a protruding undercut. 26. The method of claim 1, wherein the stacked plurality of lithographically-derived micro-machined layers define a plurality of cavities therein. 27. The method of claim 1, further comprising positioning an insert into a cavity defined by the stacked plurality of lithographically-derived micro-machined layers. 28. The method of claim 1, further comprising positioning an insert into a cavity defined by the stacked plurality of lithographically-derived micro-machined layers, the insert occupying only a portion of the cavity. 29. The method of claim 1, further comprising positioning an insert into a cavity defined by the stacked plurality of lithographically-derived micro-machined layers prior to said filling the mold with the first casting material. 30. The method of claim 1, further comprising positioning a lithographically-derived micro-machined insert into a cavity defined by the stacked plurality of lithographically-derived micro-machined layers prior to said filling the mold with the first casting material. 31. The method of claim 1, wherein the first cast product has an aspect ratio greater than 100:1. 32. The method of claim 1, further comprising surrounding the first cast product with a second casting material and demolding a second cast product formed from the second casting material, the second cast product having an aspect ratio greater than 100:1. 33. The method of claim 1, wherein a cavity defined by the stacked plurality of lithographically-derived micro-machined layers has an aspect ratio greater than 100:1. 34. The method of claim 1, wherein the first cast product is an end product. 35. The method of claim 1, further comprising surrounding the first cast product with a second casting material and demolding a second cast product formed from the second casting material, the second cast product being an end product. 36. The method of claim 1, wherein the first cast product is attached to a substrate. 37. The method of claim 1, wherein the first cast product is a free-standing structure. 38. A method of forming a casting, comprising: filling a mold having a stacked plurality of lithographically-derived micro-machined metallic foil layers with a first casting material to form a first cast product having an aspect ratio of greater than 10:1, the stacked plurality of lithographically-derived micro-machined metallic foil layers defining a protruding undercut; and demolding the first cast product from the mold, the first cast product reflecting the protruding undercut, said first cast product comprising a plurality of product surfaces that define a periphery of a layer-less volume of said first cast product, a product surface from said plurality of product surfaces comprising a plurality of 3-dimensional micro-features that substantially spatially invertedly replicate a mold surface formed by said stacked plurality of metallic foil layers. 39. A method of fabricating a stack lamination mold, comprising: lithographically micro-machining each of a plurality of metallic foil layers; and assembling the plurality of layers into a stack that defines a protruding undercut and an aspect of greater than 10:1. 40. A lithographically-derived micro-machined metallic foil stack lamination mold that defines a protruding undercut and that defines an aspect ratio of greater than 10:1. 41. The lithographically-derived micro-machined metallic foil stack lamination mold of claim 40, wherein said mold is a positive replication of a predetermined end product. 42. The lithographically-derived micro-machined metallic foil stack lamination mold of claim 40, wherein said mold is a negative replication of a predetermined end product. 43. The lithographically-derived micro-machined metallic foil stack lamination mold of claim 40, wherein said mold defines at least one feature having an aspect ratio of greater than 10:1. 44. The lithographically-derived micro-machined metallic foil stack lamination mold of claim 40, wherein said mold defines at least one feature having an aspect ratio of greater than 15:1. 45. The lithographically-derived micro-machined metallic foil stack lamination mold of claim 40, wherein said mold defines at least one feature having an aspect ratio of greater than 20:1. 46. The lithographically-derived micro-machined metallic foil stack lamination mold of claim 40, wherein said mold defines at least one feature having an aspect ratio of greater than 25:1. 47. The lithographically-derived micro-machined metallic foil stack lamination mold of claim 40, wherein said mold defines at least one feature having an aspect ratio of greater than 30:1. 48. The lithographically-derived micro-machined metallic foil stack lamination mold of claim 40, wherein said mold defines at least one feature having an aspect ratio of greater than 40:1. 49. The lithographically-derived micro-machined metallic foil stack lamination mold of claim 40, wherein said mold defines at least one feature having an aspect ratio of greater than 50:1. 50. The lithographically-derived micro-machined metallic foil stack lamination mold of claim 40, wherein said mold defines at least one feature having an aspect ratio of greater than 75:1. 51. The lithographically-derived micro-machined metallic foil stack lamination mold of claim 40, wherein said mold defines at least one feature having an aspect ratio of greater than 100:1. 52. The lithographically-derived micro-machined metallic foil stack lamination mold of claim 40, wherein said mold defines at least one feature having an aspect ratio of greater than 150:1. 53. The lithographically-derived micro-machined metallic foil stack lamination mold of claim 40, wherein said mold defines at least one feature having an aspect ratio of greater than 200:1. 54. The lithographically-derived micro-machined metallic foil stack lamination mold of claim 40, wherein said mold defines at least one feature having an aspect ratio of greater than 250:1. 55. The lithographically-derived micro-machined metallic foil stack lamination mold of claim 40, wherein said mold defines at least one feature having an aspect ratio of greater than 300:1. 56. The lithographically-derived micro-machined metallic foil stack lamination mold of claim 40, wherein said mold defines at least one feature having an aspect ratio of greater than 400:1. 57. A metallic foil stack lamination mold that defines a protruding undercut and an aspect ratio of greater than 10:1. 58. A metallic foil stack lamination mold that defines a cavity having a protruding undercut and an aspect ratio of greater than 10:1. 59. A mold derived from a metallic foil stack lamination mold, said derived mold defining a cavity therein, a protruding undercut, and a feature having an aspect ratio greater than 10:1, said derived mold comprising a plurality of surfaces that define a periphery of a layer-less volume of said derived mold, a surface from said plurality of surfaces comprising a plurality of 3-dimensional micro-features that substantially spatially invertedly replicate a stack lamination mold surface formed by a stacked plurality of metallic foil layers comprised by said stack lamination mold. 60. A mold derived from a metallic foil stack lamination mold, said derived mold defining a protruding undercut and an aspect ratio of greater than 10:1, said derived mold comprising a plurality of surfaces that define a periphery of a layer-less volume of said derived mold, a surface from said plurality of surfaces comprising a plurality of 3-dimensional micro-features that substantially spatially invertedly replicate a stack lamination mold surface formed by a stacked plurality of metallic foil layers comprised by said stack lamination mold. 61. A mold derived from a metallic foil stack lamination mold, said derived mold defining a cavity having a protruding undercut and an aspect ratio of greater than 10:1, said derived mold comprising a plurality of surfaces that define a periphery of a layer-less volume of said derived mold, a surface from said plurality of surfaces comprising a plurality of 3-dimensional micro-features that substantially spatially invertedly replicate a stack lamination mold surface formed by a stacked plurality of metallic foil layers comprised by said stack lamination mold. 62. A method of forming a casting, comprising: filling a mold having a stacked plurality of lithographically-derived micro-machined layers with a first casting material to form a first cast product having an aspect ratio of greater than 10:1, the stacked plurality of lithographically-derived micro-machined layers defining a protruding undercut; and demolding the first cast product from the mold, such that the mold is not substantially damaged, said first cast product comprising a plurality of component surfaces that define a periphery of a layer-less volume of said first cast product, a component surface from said plurality of component surfaces comprising a plurality of 3-dimensional micro-features that substantially spatially invertedly replicate a mold surface formed by said stacked plurality of layers. 63. A method of forming a casting, comprising: filling a mold having a stacked plurality of lithographically-derived micro-machined layers with a first casting material to form a first cast product having an aspect ratio of greater than 10:1, the stacked plurality of lithographically-derived micro-machined layers defining a protruding undercut; and demolding the first cast product from the mold such that the mold is not substantially damaged, the first cast product reflecting the protruding undercut, said first cast product comprising a plurality of component surfaces that define a periphery of a layer-less volume of said first cast product, a component surface from said plurality of component surfaces comprising a plurality of 3-dimensional micro-features that substantially spatially invertedly replicate a mold surface formed by said stacked plurality of layers.

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Gross, David; Lackey, Joshua; Levy, Donald E.; Piqueras Jover, Roger; Ramachandran, Jayaraman; Serban, Cristina, Method and apparatus for authentication and identity management of communicating devices.
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Bogdan, Pamela A. M.; Blandino, George; Liu, Ken; Lubranski, Leon; Myburgh, Eric; Van Brakle, Tracy, Method and apparatus for broadcast communication via guided waves.
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Gross, David; Lackey, Joshua; Levy, Donald E.; Jover, Roger Piqueras; Ramachandran, Jayaraman; Serban, Cristina, Method and apparatus for communicating network management traffic over a network.
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Gross, David; Lackey, Joshua; Levy, Donald E.; Piqueras Jover, Roger; Ramachandran, Jayaraman; Serban, Cristina, Method and apparatus for communications management in a neighborhood network.
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Birk, Martin; Henry, Paul Shala, Method and apparatus for configuring a communication interface.
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Barnickel, Donald J.; Beattie, Jr., James Gordon; Liu, Ken; Barzegar, Farhad; Gerszberg, Irwin; Bogdan, Pamela A. M.; Pimm, Brandon; Willis, III, Thomas M.; Britz, David M.; Henry, Paul Shala; Bennett, Robert; Zarsky, Dorothy, Method and apparatus for controlling an unmanned aircraft.
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Henry, Paul Shala; Barnickel, Donald J; Barzegar, Farhad; Bennett, Robert; Gerszberg, Irwin; Willis, III, Thomas M., Method and apparatus for coupling an antenna to a device.
상세보기
Liu, Ken; Barzegar, Farhad; Gerszberg, Irwin; Bogdan, Pamela A. M.; Barnickel, Donald J.; Pimm, Brandon; Willis, III, Thomas M.; Britz, David M.; Henry, Paul Shala; Bennett, Robert; Zarsky, Dorothy; Beattie, Jr., James Gordon, Method and apparatus for deploying equipment of a communication system.
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Henry, Paul Shala; Gerszberg, Irwin, Method and apparatus for detecting a fault in a communication system.
상세보기
Gross, David; Lackey, Joshua; Levy, Donald E.; Jover, Roger Piqueras; Ramachandran, Jayaraman; Serban, Cristina, Method and apparatus for distributing software.
상세보기
Gross, David; Lackey, Joshua; Levy, Donald E.; Jover, Roger Piqueras; Ramachandran, Jayaraman; Serban, Cristina, Method and apparatus for encryption of communications over a network.
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Bennett, Robert; Henry, Paul Shala; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for exchanging communication signals.
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Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for exchanging communication signals.
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Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for launching a wave mode that mitigates interference.
상세보기
Britz, David M.; Barnickel, Donald J.; Gerszberg, Irwin, Method and apparatus for mounting network devices.
상세보기
Bennett, Robert; Henry, Paul Shala; Gerszberg, Irwin; Barzegar, Farhad; Willis, III, Thomas M.; Barnickel, Donald J., Method and apparatus for proximity sensing.
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Barnickel, Donald J; Barzegar, Farhad; Bennett, Robert; Gerszberg, Irwin; Henry, Paul Shala; Willis, III, Thomas M., Method and apparatus for reducing attenuation of electromagnetic waves guided by a transmission medium.
상세보기
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for responding to events affecting communications in a communication network.
상세보기
Fuchs, Mitchell Harvey; Gerszberg, Irwin, Method and apparatus for sensing a condition in a transmission medium of electromagnetic waves.
상세보기
Liu, Ken; Bogdan, Pamela A. M.; Gerszberg, Irwin; Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Barnickel, Donald J.; Willis, III, Thomas M., Method and apparatus for tracking via a radio frequency identification device.
상세보기
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for transmitting electromagnetic waves.
상세보기
Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Method and apparatus for wireless communications to mitigate interference.
상세보기
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, Thomas M., Method and apparatus that provides fault tolerance in a communication network.
상세보기
Gerszberg, Irwin; Blandino, George, Method and communication node for broadband distribution.
상세보기
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J.; Willis, III, Thomas M., Method and repeater for broadband distribution.
상세보기
Immordino, Salvatore C.; Yeung, Lee K., Method for preparing three-dimensional plaster objects.
상세보기
Lee, Ching-Pang; Merrill, Gary B.; Burns, Andrew J., Method of casting a component having interior passageways.
상세보기
Henry, Paul Shala; Willis, III, Thomas M.; Barzegar, Farhad; Bennett, Robert; Gerszberg, Irwin; Barnickel, Donald J., Methods and apparatus for adjusting an operational characteristic of an antenna.
상세보기
Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Methods and apparatus for inducing a fundamental wave mode on a transmission medium.
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Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J.; Willis, III, Thomas M., Methods and apparatus for inducing a non-fundamental wave mode on a transmission medium.
상세보기
King, William P.; Cannon, Andrew H., Methods for fabricating microstructures.
상세보기
Appleby, Michael P.; Fraser, Iain; Atkinson, James E., Methods for manufacturing three-dimensional devices and devices created thereby.
상세보기
Appleby, Michael P.; Fraser, Iain; Atkinson, James E., Methods for manufacturing three-dimensional devices and devices created thereby.
상세보기
Lubranski, Leon; Van Brakle, Tracy; Blandino, George; Gerszberg, Irwin, Methods, devices, and systems for load balancing between a plurality of waveguides.
상세보기
Fuchs, Mitchell Harvey; Gerszberg, Irwin, Monitoring and mitigating conditions in a communication network.
상세보기
Fuchs, Mitchell Harvey; Gerszberg, Irwin, Monitoring and mitigating conditions in a communication network.
상세보기
Bennett, Robert; Henry, Paul Shala; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Network termination and methods for use therewith.
상세보기
Bennett, Robert; Henry, Paul Shala; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Network termination and methods for use therewith.
상세보기
Bennett, Robert; Henry, Paul Shala; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Network termination and methods for use therewith.
상세보기
Henry, Paul Shala; Gerszberg, Irwin; Bennett, Robert; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Node device, repeater and methods for use therewith.
상세보기
Henry, Paul Shala; Gerszberg, Irwin; Bennett, Robert; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Node device, repeater and methods for use therewith.
상세보기
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Passive electrical coupling device and methods for use therewith.
상세보기
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J; Willis, III, Thomas M., Passive electrical coupling device and methods for use therewith.
상세보기
Henry, Paul Shala; Taylor, William Scott; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J.; Willis, III, Thomas M., Plurality of cables having different cross-sectional shapes which are bundled together to form a transmission medium.
상세보기
Rusian, Peter; Shahar, Arie, Radiation detectors and methods of fabricating radiation detectors.
상세보기
Shahar, Arie; Traub, Eliezer; Sclar, Diego; Rusian, Peter, Radiation detectors and methods of fabricating radiation detectors.
상세보기
Barzegar, Farhad; Barnickel, Jr., Donald J.; Blandino, George; Gerszberg, Irwin; Henry, Paul Shala; Willis, III, Thomas M., Remote distributed antenna system.
상세보기
Barzegar, Farhad; Henry, Paul Shala; Blandino, George; Gerszberg, Irwin; Barnickel, Donald J.; Willis, III, Thomas M., Remote distributed antenna system.
상세보기
Bowdon, Christopher; Featonby, Paul David; Howstan, James Stephen; Jackson, Peter; James, Kenneth; Ronchi, Emanuele, Scanning method and apparatus.
상세보기
Gross, David; Lackey, Joshua; Levy, Donald E.; Piqueras Jover, Roger; Ramachandran, Jayaraman; Serban, Cristina, Signal fingerprinting for authentication of communicating devices.
상세보기
Bennett, Robert; Barnickel, Donald J; Barzegar, Farhad; Gerszberg, Irwin; Henry, Paul Shala; Willis, III, Thomas M., Surface-wave communications and methods thereof.
상세보기
Gerszberg, Irwin; Barzegar, Farhad; Henry, Paul Shala; Bennett, Robert; Barnickel, Donald J; Willis, III, Thomas M., System for generating topology information and methods thereof.
상세보기
Heneveld, Benjamin; Paulus, John R.; Moore, Jon T., Systems, devices, and methods involving precision component castings.
상세보기
Heneveld, Benjamin; Paulus, John R.; Moore, Jon T., Systems, devices, and methods involving precision component castings.
상세보기
Appleby, Michael P.; Fraser, Iain; Paulus, John, Systems, devices, and/or methods for manufacturing castings.
상세보기
Appleby, Michael; Fraser, Iain; Paulus, John, Systems, devices, and/or methods for manufacturing castings.
상세보기
Appleby, Michael; Paulus, John; Fraser, Iain; Klinger, Jill; Heneveld, Benjamin, Systems, devices, and/or methods for producing holes.
상세보기
Barzegar, Farhad; Gerszberg, Irwin; Bennett, Robert; Henry, Paul Shala, Transmission device with impairment compensation and methods for use therewith.
상세보기
Barzegar, Farhad; Gerszberg, Irwin; Bennett, Robert; Henry, Paul Shala, Transmission device with impairment compensation and methods for use therewith.
상세보기
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J.; Willis, III, Thomas M., Transmission device with mode division multiplexing and methods for use therewith.
상세보기
Henry, Paul Shala; Bennett, Robert; Gerszberg, Irwin; Barzegar, Farhad; Barnickel, Donald J.; Willis, III, Thomas M., Transmission device with mode division multiplexing and methods for use therewith.
상세보기
Bennett, Robert; Henry, Paul Shala; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Transmission medium and communication interfaces and methods for use therewith.
상세보기
Bennett, Robert; Henry, Paul Shala; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Transmission medium and method for facilitating propagation of electromagnetic waves via a core.
상세보기
Barzegar, Farhad; Barnickel, Donald J; Bennett, Robert; Gerszberg, Irwin; Henry, Paul Shala; Willis, III, Thomas M., Transmission medium and methods for use therewith.
상세보기
Henry, Paul Shala; Taylor, William Scott; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Transmission medium having a dielectric core comprised of plural members connected by a ball and socket configuration.
상세보기
Henry, Paul Shala; Taylor, William Scott; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J; Willis, III, Thomas M., Transmission medium having multiple cores and methods for use therewith.
상세보기
Henry, Paul Shala; Bennett, Robert; Barzegar, Farhad; Gerszberg, Irwin; Barnickel, Donald J.; Willis, III, Thomas M.; Guntin, Ed, Waveguide system for slot radiating first electromagnetic waves that are combined into a non-fundamental wave mode second electromagnetic wave on a transmission medium.
상세보기
Harding, Geoffrey; Olesinski, Stephan; Kosciesza, Dirk; Strecker, Helmut Rudolf; Gordon, Jeffrey Seymour, X-ray diffraction device, object imaging system, and method for operating a security system.
상세보기

IPC	Description
A	생활필수품
A62	인명구조; 소방(사다리 E06C)
A62B	인명구조용의 기구, 장치 또는 방법(특히 의료용에 사용되는 밸브 A61M 39/00; 특히 물에서 쓰이는 인명구조 장치 또는 방법 B63C 9/00; 잠수장비 B63C 11/00; 특히 항공기에 쓰는 것, 예. 낙하산, 투출좌석 B64D; 특히 광산에서 쓰이는 구조장치 E21F 11/00)
A62B-1/08	.. 윈치 또는 풀리에 제동기구가 있는 것

내보내기 구분	파일저장 인쇄 메일전송
구성항목	기본정보 상세정보 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표IPC 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 공고번호, 공고일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표출원인, 출원인국적, 출원인주소, 발명자, 발명자E, 발명자코드, 발명자주소, 발명자 우편번호, 발명자국적, 대표IPC, IPC코드, 요약, 미국특허분류, 대리인주소, 대리인코드, 대리인(한글), 대리인(영문), 국제공개일자, 국제공개번호, 국제출원일자, 국제출원번호, 우선권, 우선권주장일, 우선권국가, 우선권출원번호, 원출원일자, 원출원번호, 지정국, Citing Patents, Cited Patents
저장형식	Text(ASCII format) Excel format PIAS분석(.xls)
메일정보	받는사람 (필수) @ 보내는사람 (선택) @ 제목 내용 KISTI 검색결과 이메일 서비스
안내	총 건의 자료가 검색되었습니다. 다운받으실 자료의 인덱스를 입력하세요. (1-10,000) 검색결과의 순서대로 최대 10,000건 까지 다운로드가 가능합니다. 데이타가 많을 경우 속도가 느려질 수 있습니다.(최대 2~3분 소요) 다운로드 파일은 UTF-8 형태로 저장됩니다. 파일의 내용이 제대로 보이지 않을실 때는 웹브라우저 상단의 보기 -> 인코딩 -> 자동선택 여부를 확인하십시오. ~ Text(ASCII format) Excel format

연합인증

Methods for manufacturing three-dimensional devices and devices created thereby

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연합인증

Methods for manufacturing three-dimensional devices and devices created thereby

초록 ▼

대표청구항 ▼

연구과제 타임라인

전체(0) 논문(0) 특허(0) 보고서(0)

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이 특허에 인용된 특허 (220)

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