Method of making an open pore structure
First Claim
Patent Images
1. A method of fabricating an open-pore structure, comprising:
- (a) depositing on and in an openwork synthetic-resin pyrolyzable support a coating of at least one material selected from the group which consists of metals, semiconductors and ceramics by juxtaposing said support with a pair of electrodes at least one of which is composed of at least one element of said material, advancing said electrodes into contact to strike an electric arc between said electrodes and evaporate said element from said one of said electrodes and effect deposition of said material on said support, and evacuating a space in which said support is juxtaposed with such electrodes prior to depositing said material on said support; and
(b) sintering the deposited material into a coherent body constituting said open-pore structure.
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Abstract
An openwork nickel structure having a high surface area to volume ratio and a porosity which is largely independent of the degree to which the metal structure may be compressed, is formed by depositing on a pyrolyzable support, preferably a reticulated open-pore polyurethane support, a coating of metal by arc-striking utilizing at least one electrode of that metal and by bringing the electrodes out of contact with one another. The metal-covered support is then subjected to pyrolysis to form the metal skeleton which is then sintered. The resulting metal structure has been found to be suitable for use as an electrode in a Ni-Cd cell.
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Citations
11 Claims
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1. A method of fabricating an open-pore structure, comprising:
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(a) depositing on and in an openwork synthetic-resin pyrolyzable support a coating of at least one material selected from the group which consists of metals, semiconductors and ceramics by juxtaposing said support with a pair of electrodes at least one of which is composed of at least one element of said material, advancing said electrodes into contact to strike an electric arc between said electrodes and evaporate said element from said one of said electrodes and effect deposition of said material on said support, and evacuating a space in which said support is juxtaposed with such electrodes prior to depositing said material on said support; and (b) sintering the deposited material into a coherent body constituting said open-pore structure.
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2. A method of fabricating an open-pore structure, comprising:
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(a) depositing on and in an openwork reticulated polyurethane foam pyrolyzable support a coating of at least one material selected from the group which consists of metals, semiconductors and ceramics by juxtaposing said support with a pair of electrodes at least one of which is composed of at least one element of said material, advancing said electrodes into contact to strike an electric arc between said electrodes and evaporate said element from said one of said electrodes and effect deposition of said material on said support, and evacuating a space in which said support is juxtaposed with such electrodes prior to depositing said material on said support; (b) thereafter pyrolyzing said support to form an openwork skeleton consisting essentially of said material deposited on said support in step (a); and (c) sintering said skeleton into a coherent body constituting said open-pore structure. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of making a battery electrode which comprises the steps of:
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(a) juxtaposing an open-pore reticulated polyurethane foam support having substantially 10 to 100 pores per linear inch with a pair of electrodes in a space evacuated to a pressure of at most 10-3 torr with at least one of the electrodes being composed of nickel, applying a voltage of substantially 20 to 150 volts across said electrodes with a current of 40 to 150 amperes and striking an arc between said electrodes, to evaporate nickel and deposit evaporated nickel on and in said support to form a nickel-coated support; (b) pyrolyzing the support following the nickel coating thereof in step (a) in an electric furnace at a temperature of about 350°
C. to form an openwork nickel body; and(c) sintering said openwork nickel body at a temperature of 950°
C. to 1250°
C. into a coherent openwork nickel structure.
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Specification