A gas delivery substrate and method of manufacture is disclosed. A thermoplastic extrusion compound is created comprising a ceramic material and a thermoplastic resin, a green body is formed by thermoplastic extrusion of the compound, and the green body is sintered to form the gas delivery substrat
A gas delivery substrate and method of manufacture is disclosed. A thermoplastic extrusion compound is created comprising a ceramic material and a thermoplastic resin, a green body is formed by thermoplastic extrusion of the compound, and the green body is sintered to form the gas delivery substrate. Such gas delivery substrates may be thin walled, highly porous and have secondary operations such as crimping and machining done prior to sintering.
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What is claimed is: 1. A gas delivery substrate comprising, in combination: a thermoplastic ceramic extrusion defining a main body having a top wall, a bottom wall and side walls, the main body also having a series of internal channels running parallel to one another and ending at first and second
What is claimed is: 1. A gas delivery substrate comprising, in combination: a thermoplastic ceramic extrusion defining a main body having a top wall, a bottom wall and side walls, the main body also having a series of internal channels running parallel to one another and ending at first and second channel edges, wherein at least one of the channel edges is a closed edge for closing the series of internal channels; and wherein the closed edge is at least one of a crimped edge and a collapsed edge. 2. The gas delivery substrate of claim 1 further comprising slots positioned on one of the top wall and the bottom wall, connected to a corresponding internal channel. 3. The gas delivery substrate of claim 2 wherein both the first channel edge and the second channel edge are closed edges for closing the series of internal channels; wherein each of the closed edges are at least one of a crimped edge and a collapsed edge; and wherein the slots are positioned on both the top wall and the bottom wall. 4. The gas delivery substrate of claim 1, further comprising a gas impermeable coating positioned on a portion of the top wall and on a portion of the bottom wall. 5. The gas delivery substrate of claim 1 further comprising a gas impermeable coating on the side walls. 6. The gas delivery substrate of claim 1 wherein the main body comprises a metal oxide. 7. The gas delivery substrate of claim 6 wherein the metal oxide comprises stabilized zirconia. 8. The gas delivery substrate of claim 1 wherein the main body comprises a ceramic material having a particle size distribution range of about 0.1 micrometers to 200 micrometers. 9. The gas delivery substrate of claim 1 wherein the main body comprises a pore forming material. 10. The gas delivery substrate of claim 1 wherein the main body comprises an electrically conductive material. 11. The gas delivery substrate of claim 1 wherein the main body is formed of a material porous to gas allowing diffusion of one of a fuel gas and an oxidant. 12. The gas delivery substrate of claim 1 wherein the main body comprises one of anode, cathode, interconnect and catalyst materials. 13. The gas delivery substrate of claim 1 wherein the main body further comprises a pore-forming additive. 14. A fuel cell, comprising, a gas delivery substrate having a porous thermoplastic ceramic extrusion defining a main body, the gas delivery substrate being configured to deliver at least one of a fuel, an oxidant and an electrical current in said fuel cell, wherein: the main body includes a top wall, a bottom wall, at least one side wall, and a series of internal channels running parallel to one another and ending at first and second channel edges; and at least one of the first and second channel edges is a crimped edge configured to close the at least one internal channel. 15. The fuel cell of claim 14, wherein the gas delivery substrate is configured to deliver at least one of said fuel and said oxidant. 16. The fuel cell of claim 14, wherein the gas delivery substrate includes a gas impermeable coating on at least one of the top wall, the bottom wall and the side walls. 17. The fuel cell of claim 14, wherein the main body employs at least one of an anode material, a cathode material, an interconnect material and a catalyst material. 18. The fuel cell of claim 14, wherein the porous thermoplastic ceramic extrusion is configured to permit diffusion therethrough of at least one of the fuel and the oxidant. 19. A structure, comprising: a thermoplastic ceramic extrusion defining a green body configured in the form of a gas delivery substrate for a fuel cell, the green body including a main body, wherein: the main body includes a top wall, a bottom wall, at least one side wall, and a series of internal channels running parallel to one another and ending at first and second channel edges; and at least one of the first and second channel edges is a crimped edge configured to close the at least one internal channel on a corresponding end. 20. The structure of claim 19, the thermoplastic ceramic extrusion including a pore-forming additive. 21. The structure of claim 19, the thermoplastic extrusion including an electrically conductive material. 22. The structure of claim 19, the thermoplastic extrusion including at least one of an anode material, a cathode material, an interconnect material and a catalyst material.
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이 특허에 인용된 특허 (12)
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