Claims
- 1. A process for fabricating an arc limiting refractory resistive element comprising:
- mixing polycrystalline aluminum oxide with from about 0.3 weight percent to about 1.0 weight percent of an electrically conductive refractory material, less than about 0.2 weight percent sintering aid and water to form a relatively uniform slurry;
- milling said slurry;
- drying said slurry to a powder;
- compacting said powder resulting from the drying step to form a monolithic body;
- sintering said monolithic body to a sufficient temperature in an atmosphere containing magnesium oxide, aluminum oxide, carbon, and an inert gas to form a densified body having a theoretical density from about 88 percent to about 93 percent; and
- heating said densified body in an oxidizing atmosphere at a sufficient temperature and period of time to remove said electrically conductive refractory material from said outer region of said densified body to form an electrically non-conductive outer region.
- 2. A process for fabricating an arc limiting refractory resistive element of claim 1 wherein said densified body contains from about 0.7 weight percent to about 0.8 weight percent of said electrically conductive refractory material.
- 3. A process for fabricating an arc limiting refractory resistive element of claim 1 wherein said electrically conductive refractory material is carbon.
- 4. A process for fabricating an arc limiting refractory resistive element of claim 3 wherein said carbon is selected from the group consisting of graphite, carbon black, and combinations thereof.
- 5. A process for fabricating an arc limiting refractory resistive element of claim 4 wherein said carbon black has a surface area greater than about 500 m.sup.2 /g.
- 6. A process for fabricating an arc limiting refractory resistive element of claim 1 wherein said sintering aid is magnesium oxide.
- 7. A process for fabricating an arc limiting refractory resistive element of claim 1 wherein the mixing step includes mixing from about 0.025 weight percent to about 0.10 weight percent of said magnesium oxide in forming said slurry.
- 8. A process for fabricating an arc limiting refractory resistive element of claim 1 wherein said sintering aid is magnesium nitrate.
- 9. A process for fabricating an arc limiting refractory resistive element of claim 1 wherein said monolithic body is sintered at a temperature from about 1450.degree. C. to about 1675.degree. C.
- 10. A process for fabricating an arc limiting refractory resistive element of claim 1 wherein said densified body is heated to a temperature of from about 1350.degree. C. to about 1550.degree. C. for a period of time less than about 15 minutes.
- 11. A process for fabricating an arc limiting refractory resistive element of claim 1 wherein said oxidizing atmosphere is air.
- 12. A process for fabricating an arc limiting refractory resistive element comprising:
- forming a relatively uniform mixture consisting essentially of polycrystalline aluminum oxide with from about 0.3 weight percent to about 1.0 weight percent of an electrically conductive refractory material, less than about 0.2 weight percent sintering aid, binder, and water;
- extruding said relatively uniform mixture to form a monolithic body;
- sintering said monolithic body to a sufficient temperature to obtain a theoretical density from about 88 percent to about 93 percent in an atmosphere containing magnesium oxide, aluminum oxide, carbon, and an inert gas to form a densified body; and
- oxidizing said densified body to remove said electrically conductive refractory material from the outer region of said densified body to form an electrically non-conductive outer region.
- 13. A process for fabricating an arc limiting refractory resistive element of claim 12 wherein said densified body contains from about 0.7 weight percent to about 0.8 weight percent of said electrically conductive material.
- 14. A process for fabricating an arc limiting refractory resistive element of claim 12 wherein said electrically conductive refractory material is carbon.
- 15. A process for fabricating an arc limiting refractory resistive element of claim 14 wherein said carbon is selected from the group consisting of graphite, carbon black, and combinations thereof.
- 16. A process for fabricating an arc limiting refractory resistive element of claim 15 wherein said carbon black has a surface area greater than about 500 m.sup.2 /g.
- 17. A process for fabricating an arc limiting refractory resistive element of claim 12 wherein said sintering aid is magnesium oxide.
- 18. A process for fabricating an arc limiting refractory resistive element of claim 12 wherein said densified body contains from about 0.025 weight percent to about 0.10 weight percent of said magnesium oxide.
- 19. A process for fabricating an arc limiting refractory resistive element of claim 12 wherein said sintering aid is magnesium nitrate.
- 20. A process for fabricating an arc limiting refractory resistive element of claim 12 wherein said monolithic body is sintered at a temperature from about 1450.degree. C. to about 1675.degree. C.
- 21. A process for fabricating an arc limiting refractory resistive element of claim 12 wherein oxidizing said densified body includes:
- heating said densified body in an oxidizing atmosphere at a sufficient temperature and period of time to remove said electrically conductive refractory material from said outer region of said densified body to form an electrically non-conductive outer region.
- 22. A process for fabricating an arc limiting refractory resistive element of claim 21 wherein said densified body is heated to a temperature of from about 1350.degree. C. to about 1550.degree. C. for a period of time less than about 15 minutes.
- 23. A process for fabricating an arc limiting refractory resistive element of claim 21 wherein said oxidizing atmosphere is air.
Parent Case Info
This is a division of application Ser. No. 303,316, filed Sept. 17, 1981, now U.S. Pat. No. 4,418,327.
US Referenced Citations (6)
Foreign Referenced Citations (2)
Number |
Date |
Country |
55-86055 |
Jun 1980 |
JPX |
57-52101 |
Mar 1982 |
JPX |
Non-Patent Literature Citations (1)
Entry |
Kobori et al., "A Novel Arc-Suppression Technique for Cathode-Ray Tubes", IEEE Transactions on Consumer-Electronics, vol. CE-26, Aug. 1980, pp. 446-451. |
Divisions (1)
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Number |
Date |
Country |
Parent |
303316 |
Sep 1981 |
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