Claims
- 1. A dielectric powder composition for making hermetic dielectrics having an insulation resistance (IR) drop of less than 4 orders of magnitude after submersion in water at 50.degree. C. for 10 days consisting essentially of a finely divided admixture of (a) a perovskite of the formula ATiO.sub.3 in which is A is selected from the group consisting of barium, calcium, strontium and lead, (b) a bismuth-substituted pyrochlore of the formula Bi.sub.2-x M.sub.x M'.sub.2-y M".sub.y O.sub.7-z wherein
- M is a rare earth metal of atomic number 57 to 71, lead, cadmium, or yttrium
- M' is iron, gallium or indium
- M" is antimony, tantalum or niobium,
- X is a number in the range 0-1,
- y is a number in the range 1-1.5 and
- Z is a number in the range 0-0.5 and
- (c) a low temperature-melting devitrifiable glass having a specific viscosity (log .eta.) of less than 6 at the firing temperature in which the glass has a softening point below 600.degree. C. and in which the relative proportions of the components, by weight, are 10-65% (a) 10-70% (b) and 1-20% (c).
- 2. The composition of claim 1 in which the perovskite is BaTiO.sub.3.
- 3. The composition of claim 1 in which the pyrochlore is Bi.sub.2 FeSbO.sub.7.
- 4. The composition of claim 1 in which the glass is 50-80% by weight Pb.sub.3 O.sub.4 and 10-30% by weight GeO.sub.2.
- 5. A screen-printable dielectric composition for making hermetic dielectrics having an insulation resistance (IR) drop of less than 4 orders of magnitude after submersion in water at 50.degree. C. for 10 days consisting essentially of (a) a perovskite of the formula ATiO.sub.3 in which is A is selected from the group consisting of barium, calcium, strontium and lead, (b) a bismuth-substituted pyrochlore of the formula Bi.sub.2-x M.sub.x M'.sub.2-y M".sub.y O.sub.7-z wherein
- M is a rare earth metal of atomic number 57 to 71, lead, cadmium, or yttrium
- M' is iron, gallium or indium
- M" is antimony, tantalum or niobium,
- X is a number in the range 0-1,
- y is a number in the range 1-1.5 and
- Z is a number in the range 0-0.5 and
- (c) a low temperature-melting devitrifiable glass having a specific viscosity (log .eta.) of less than 6 at the firing temperature dispersed in an inert liquid vehicle in which the glass has a softening point below 600.degree. C. and in which the relative proportions of the components, by weight, are 10-65% (a) 10-70% (b) and 1-20% (c).
- 6. The composition of claim 5 in which the perovskite is BaTiO.sub.3.
- 7. The composition of claim 5 in which the pyrochlore is Bi.sub.2 FeSbO.sub.7.
- 8. The composition of claim 5 in which the glass is 50-80% by weight Pb.sub.3 O.sub.4 and 10-30% by weight GeO.sub.2.
- 9. An hermetic dielectric film of the composition of claim 5 which (a) has been fired to remove the inert liquid and to effect liquid phase sintering and (b) cooled to effect divitrification of the glass.
- 10. The film of claim 9 in which the perovskite is BaTiO.sub.3.
- 11. The film of claim 9 in which the pyrochlore is Bi.sub.2 FeSbO.sub.7.
- 12. The film of claim 9 in which the glass is 50-80% by weight Pb.sub.3 O.sub.4 and 10-30% by weight GeO.sub.2.
- 13. An hermetic capacitor having an insulation resistance (IR) drop of less than 4 order of magnitude after submersion in water at 50.degree. C. for 10 days and comprising (1) a first conductor terminal on which is printed (2) an hermetic dielectric film and (3) a second conductor terminal overlying the dielectric film, the dielectric layer consisting of (a) a perovskite of the formula ATiO.sub.3 in which is A is selected from the group consisting of barium, calcium, strontium and lead, (b) a bismuth-substituted pyrochlore of the formula Bi.sub.2-x M.sub.x M'.sub.2-y M".sub.y O.sub.7-z wherein
- M is a rare earth metal of atomic number 57 to 71, lead, cadmium, or yttrium
- M' is iron, gallium or indium
- M" is antimony, tantalum or niobium,
- X is a number in the range 0-1,
- y is a number in the range 1-1.5 and
- Z is a number in the range 0-0.5 and
- (c) a low temperature-melting devitrifiable glass, having a specific viscosity (log .eta.) of less than 6 at the firing temperature the assemblage having been cofired to remove the inert liquid therefrom and to effect liquid phase sintering and then cooled to effect devitrification of the glass in which the glass has a softening point below 600.degree. C. and in which the relative proportions of the components, by weight, are 10-65% (a) 10-70% (b) and 1-20% (c).
- 14. An hermetic multilayer capacitor having an insulation resistance (IR) drop of less than 4 order of magnitude after submersion in water at 50.degree. C. for 10 days and comprising a first conductor terminal and a plurality of alternating printed dielectric layers and overlying conductor terminals, the dielectric layers consisting of (a) perovskite of the formula ATiO.sub.3 in which is A is selected from the group consisting of barium, calcium, strontium and lead, (b) a bismuth-substituted pyrochlore of the formula Bi.sub.2-x M.sub.x M'.sub.2-y M".sub.y O.sub.7-z wherein
- M is a rare earth metal of atomic number 57 to 71, lead, cadmium, or yttrium
- M' is iron, gallium or indium
- M" is antimony, tantalum or niobium,
- X is a number in the range 0-1,
- y is a number in the range 1-1.5 and
- Z is a number in the range 0-0.5 and
- (c) a low temperature-melting devitrifiable glass, having a specific viscosity (log .eta.) of less than 6 at the firing temperature the assemblage having been cofired to remove the inert liquid therefrom and to effect liquid phase sintering and then cooled to effect devitrification of the glass in which the glass has a softening point below 600.degree. C. and in which the relative proportions of the components, by weight, are 10-65% (a) 10-70% (b) and 1-20% (c).
CROSS REFERENCE TO PRIOR APPLICATION
This application is a continuation-in-part of pending application Ser. No. 169,496 filed July 16, 1981 now abandoned.
US Referenced Citations (11)
Non-Patent Literature Citations (2)
Entry |
Holscher, Harry H., "The Relationship of Viscosity to Processing of Glass", Owens-Illinois Technical Center, Toledo, Ohio, Apr. 1968. |
Dictionary of Ceramics by A. E. Dodd, pub. by Philosophical Library, Inc., NYC 1964, Perovskite, Barium Titanate, pp. 203-204 and p. 18. |
Continuation in Parts (1)
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Number |
Date |
Country |
Parent |
169496 |
Jul 1981 |
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