Claims
- 1. A process for forming a long-time-vacuum-tight, high-strength, and corrosion-resistant joint, by means of a joining material, between a first body and a second body each made of sintered, polycrystalline alumina ceramic with a purity greater than 92 wt. % or of sapphire, said process comprising steps of:
- interposing the joining material in the form of a paste, a foil, or a slip between the first body and the second body,
- the joining material having been made from
- an agglomerate-free, high-purity .alpha.-alumina powder with particles of a size not exceeding 100 nm (=10.sup.-7 m),
- an anorganic oxidic powder of an auxiliary sintering agent with particles of a size not exceeding 100 nm, and an organic vehicle which is dissolved or suspended in an organic or aqueous solvant and in which the particles of the respective powder are substantially evenly distributed,
- with the total .alpha.-alumina and auxiliary-sintering-agent content of the paste, the foil, or the slip ranging between 50% and 70%,
- or with the joining material having been made from
- an agglomerate-free, high-purity .alpha.-alumina powder with particles of a size not exceeding 100 nm (=10.sup.-7 m),
- an anorganic oxidic auxiliary sintering agent produced chemically as envelopes around or attachment to the particles of the .alpha.-alumina powder, and
- an organic vehicle dissolved or suspended in an organic or aqueous solvant,
- with the total .alpha.-alumina and auxiliary-sintering-agent content of the paste, the foil, or the slip ranging between 50% and 70%; and
- beating the bodies to a temperature of not more than 1,300.degree. C. and then allowing them to cool down,
- with the alumina content of the joint after cooling being at least 95 wt. % and the auxiliary-sintering-agent content after cooling being not more than 5 wt. %.
- 2. A process as claimed in claim 1 wherein the total .alpha.-alumina and auxiliary sintering agent is comprised of at least 99.9 wt. % .alpha.-alumina.
- 3. A process as claimed in claim 2 wherein, in addition to the temperature, a pressure acts on the bodies.
- 4. A process as claimed in claim 1 wherein, in addition to the temperature, a pressure acts on the bodies.
- 5. A process as claimed in claim 1 wherein, the particles of the anorganic oxidic powder of the auxiliary sintering agent are the same size as the particles of the .alpha.-alumina powder.
- 6. A process for forming a joint, by means of a joining material, in a ceramic absolute-pressure or differential-pressure sensor having a substrate and a diaphragm the substrate and diaphragm each made of sintered, polycrystalline alumina ceramic with a purity greater than 92 wt. % or of sapphire, the diaphragm being connected to the substrate with the joining material near its edge so as to form a long-time-vacuum-tight, high-strength, corrosion-resistant joint and an internal chamber, the process comprising the steps of:
- interposing the joining material in the form of a paste, a foil, or a slip between the substrate and the diaphragm, the joining material being made from
- an agglomerate-free, high-purity .alpha.-alumina powder with particles of a size not exceeding 100 nm (=10.sup.-7 m),
- an anorganic oxidic powder of an auxiliary sintering agent with particles of a size not exceeding 100 nm, and
- an organic vehicle which is dissolved or suspended in an organic or aqueous solvant and in which the particles of the respective powder are substantially evenly distributed,
- wherein the total .alpha.-alumina and auxiliary-sintering-agent content of the paste, the foil, or the slip ranges between 50% and 70%,
- or with the joining material being made from
- an agglomerate-free, high-purity .alpha.-alumina powder with particles of a size not exceeding 100 nm (=10.sup.-7 m),
- an anorganic oxidic auxiliary sintering agent produced chemically as envelopes around or attachment to the particles of the .alpha.-alumina powder, and
- an organic vehicle dissolved or suspended in an organic or aqueous solvant,
- wherein the total .alpha.-alumina and auxiliary-sintering-agent content of the paste, the foil, or the slip ranges between 50% and 70%; and
- heating the substrate and the diaphragm to a temperature of not more than 1,300.degree. C. and then allowing them to cool down,
- wherein the alumina content of the joint after cooling is at least 95 wt. % and the auxiliary-sintering-agent content after cooling is not more than 5 wt. %.
- 7. The process of claim 6, wherein the total .alpha.-alumina and auxiliary sintering agent is comprised of at least 99.9 wt. % .alpha.-alumina.
- 8. The process of claim 7, further comprising the step of applying a pressure to the substrate and the diaphragm during the heating step.
- 9. The process of claim 6, further comprising the step of applying a pressure to the substrate and the diaphragm during the heating step.
- 10. The process of claim 6 wherein, the particles of the anorganic oxidic powder of the auxiliary sintering agent are the same size as the particles of the .alpha.-alumina powder.
Priority Claims (1)
Number |
Date |
Country |
Kind |
96115962 |
Oct 1996 |
EPX |
|
Parent Case Info
This application claims benefit of provisional application Ser. No. 60/028,815 filed Oct. 17, 1996.
US Referenced Citations (14)
Foreign Referenced Citations (1)
Number |
Date |
Country |
27 09 945 A1 |
Mar 1976 |
DEX |