Hermetically sealed glass package and method of fabrication
First Claim
1. A glass package comprising:
- a glass plate; and
a sealing glass plate doped with at least one transition or rare earth metal, wherein said doped sealing glass plate includes a swelled portion that is a hermetic seal which connects said glass plate to said doped sealing glass plate and also creates a gap between said glass plate and said doped sealing glass plate.
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Abstract
A hermetically sealed glass package and method for manufacturing the hermetically sealed glass package are described herein using an OLED display as an example. In one embodiment, the hermetically sealed glass package is manufactured by providing a first substrate plate and a second substrate plate. The second substrate contains at least one transition or rare earth metal such as iron, copper, vanadium, manganese, cobalt, nickel, chromium, neodymium and/or cerium. A sensitive thin-film device that needs protection is deposited onto the first substrate plate. A laser is then used to heat the doped second substrate plate in a manner that causes a portion of it to swell and form a hermetic seal that connects the first substrate plate to the second substrate plate and also protects the thin film device. The second substrate plate is doped with at least one transition metal such that when the laser interacts with it there is an absorption of light from the laser in the second substrate plate, which leads to the formation of the hermetic seal while avoiding thermal damage to the thin-film device. Another embodiment of the hermetically sealed glass package and a method for manufacturing that hermetically sealed glass package are also described herein.
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Citations
57 Claims
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1. A glass package comprising:
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a glass plate; and
a sealing glass plate doped with at least one transition or rare earth metal, wherein said doped sealing glass plate includes a swelled portion that is a hermetic seal which connects said glass plate to said doped sealing glass plate and also creates a gap between said glass plate and said doped sealing glass plate. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 14, 15)
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2. The glass package of claim 1, wherein said doped sealing glass plate has a composition designed to be heated by an infrared wavelength laser.
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3. The glass package of claim 2, wherein said composition is a follows:
Fe2O3 0.0-5 (mole %) V2O5 0.0-4 (mole %) TiO2 0.0-5 (mole %) CuO 0.0-10 (mole %) NiO 0.0-3 (mole %) B2O3 8-30 (mole %) Al2O3 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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4. The glass package of claim 1, wherein said doped sealing glass plate has a composition designed to be heated by a visible wavelength laser.
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5. The glass package of claim 4, wherein said composition is a follows:
Co3O4 0.5-3 (mole %) B2O3 8-30 (mole %) Al2O 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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6. The glass package of claim 1, wherein said doped sealing glass plate has a composition designed to be heated by an ultraviolet wavelength laser.
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7. The glass package of claim 6, wherein said composition is a follows:
CeO2 1-4 (mole %) TiO2 0.0-3 (mole %) B2O3 8-30 (mole %) Al2O3 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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8. The glass package of claim 6, wherein said composition is a follows:
Al2O 0-15 (mole %) B2O3 10-30 (mole %) Li2O 0-3 (mole %) Na2O 3-8 (mole %) K2O 0-4 (mole %) CuO 0.2-1 (mole %) SnO 0.1-1 (mole %) Br 0.2-1 (mole %) Cl 0-2 (mole %) F 0-6 (mole %) CeO2 0-3 (mole %) SiO2 balance.
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9. The glass package of claim 1, wherein said doped sealing glass plate is a laminated glass plate with a clear glass layer and an absorbing glass layer.
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10. The glass package of claim 1, wherein said doped sealing glass plate is made from a multi-component glass doped with at least one transition or rare earth metal such as iron, copper, vanadium, manganese, cobalt, nickel, chromium, neodymium or cerium.
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14. The glass package of claim 1, wherein said doped sealing glass fiber has a composition designed to be heated by a visible wavelength laser.
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15. The glass package of claim 14, wherein said composition is a follows:
Co3O4 0.5-3 (mole %) B2O3 8-30 (mole %) Al2O 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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2. The glass package of claim 1, wherein said doped sealing glass plate has a composition designed to be heated by an infrared wavelength laser.
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11. A glass package comprising:
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a first glass plate;
a second glass plate; and
a sealing glass fiber doped with at least one transition or rare earth metal, wherein said doped sealing glass fiber is heated in a manner that causes said doped sealing glass fiber to soften and form a hermetic seal which connects said first glass plate to said second glass plate. - View Dependent Claims (12, 13, 16, 17, 18, 19)
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12. The glass package of claim 11, wherein said doped sealing glass fiber has a composition designed to be heated by an infrared wavelength laser.
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13. The glass package of claim 12, wherein said composition is a follows:
Fe2O3 0.0-5 (mole %) V2O5 0.0-4 (mole %) TiO2 0.0-5 (mole %) CuO 0.0-10 (mole %) NiO 0.0-3 (mole %) B2O3 8-30 (mole %) Al2O3 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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16. The glass package of claim 11, wherein said doped sealing glass fiber has a composition designed to be heated by an ultraviolet wavelength laser.
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17. The glass package of claim 16, wherein said composition is a follows:
CeO2 1-4 (mole %) TiO2 0.0-3 (mole %) B2O3 8-30 (mole %) Al2O3 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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18. The glass package of claim 16, wherein said composition is a follows:
Al2O 0-15 (mole %) B2O3 10-30 (mole %) Li2O 0-3 (mole %) Na2O 3-8 (mole %) K2O 0-4 (mole %) CuO 0.2-1 (mole %) SnO 0.1-1 (mole %) Br 0.2-1 (mole %) Cl 0-2 (mole %) F 0-6 (mole %) CeO2 0-3 (mole %) SiO2 balance.
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19. The glass package of claim 11, wherein said doped sealing glass fiber is made from a multi-component glass doped with at least one transition or rare earth metal such as iron, copper, vanadium, manganese, cobalt, nickel, chromium, neodymium or cerium.
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12. The glass package of claim 11, wherein said doped sealing glass fiber has a composition designed to be heated by an infrared wavelength laser.
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20. An organic light emitting diode display, comprising:
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a substrate plate;
at least one organic light emitting diode; and
a sealing glass plate doped with at least one transition or rare earth metal, wherein said doped sealing glass plate includes a swelled portion that is a hermetic seal which connects said substrate plate to said doped sealing glass plate and also creates a gap to make room for said at least one organic light emitting diode to be located between said substrate plate and said doped sealing glass plate and further protects said at least one organic light emitting diode located between said substrate plate and said doped sealing glass plate. - View Dependent Claims (21, 22, 23, 24, 25, 26, 27, 28, 29)
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21. The organic light emitting diode display of claim 20, wherein said doped sealing glass plate has a composition designed to be heated by an infrared wavelength laser.
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22. The organic light emitting diode display of claim 21, wherein said composition is a follows:
Fe2O3 0.0-5 (mole %) V2O5 0.0-4 (mole %) TiO2 0.0-5 (mole %) CuO 0.0-10 (mole %) NiO 0.0-3 (mole %) B2O3 8-30 (mole %) Al2O3 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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23. The organic light emitting diode display of claim 20, wherein said doped sealing glass plate has a composition designed to be heated by a visible wavelength laser.
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24. The organic light emitting diode display of claim 23, wherein said composition is a follows:
Co3O4 0.5-3 (mole %) B2O3 8-30 (mole %) Al2O 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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25. The organic light emitting diode display of claim 20, wherein said doped sealing glass plate has a composition designed to be heated by an ultraviolet wavelength laser.
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26. The organic light emitting diode display of claim 25, wherein said composition is a follows:
CeO2 1-4 (mole %) TiO2 0.0-3 (mole %) B2O3 8-30 (mole %) Al2O3 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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27. The organic light emitting diode display of claim 25, wherein said composition is a follows:
Al2O 0-15 (mole %) B2O3 10-30 (mole %) Li2O 0-3 (mole %) Na2O 3-8 (mole %) K2O 0-4 (mole %) CuO 0.2-1 (mole %) SnO 0.1-1 (mole %) Br 0.2-1 (mole %) Cl 0-2 (mole %) F 0-6 (mole %) CeO2 0-3 (mole %) SiO2 balance.
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28. The organic light emitting diode display of claim 20, wherein said doped sealing glass plate is a laminated glass plate with a clear glass layer and an absorbing glass layer.
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29. The organic light emitting diode display of claim 20, wherein said doped sealing glass plate is made from a multi-component glass doped with at least one transition or rare earth metal such as iron, copper, vanadium, manganese, cobalt, nickel, chromium, neodymium or cerium.
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21. The organic light emitting diode display of claim 20, wherein said doped sealing glass plate has a composition designed to be heated by an infrared wavelength laser.
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30. An organic light emitting diode display, comprising:
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a first substrate plate;
at least one organic light emitting diode;
a second substrate plate; and
a sealing glass fiber doped with at least one transition or rare earth metal, wherein said doped sealing glass fiber was heated in a manner that caused said doped sealing glass fiber to soften and form a hermetic seal which connects said first substrate plate to said second substrate plate and also protects said at least one organic light emitting diode located between said first substrate plate and said second substrate plate. - View Dependent Claims (31, 32, 33, 34, 35, 36, 37, 38)
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31. The organic light emitting diode display of claim 30, wherein said doped sealing glass fiber has a composition designed to be heated by an infrared wavelength laser.
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32. The organic light emitting diode display of claim 31, wherein said composition is a follows:
Fe2O3 0.0-5 (mole %) V2O5 0.0-4 (mole %) TiO2 0.0-5 (mole %) CuO 0.0-10 (mole %) NiO 0.0-3 (mole %) B2O3 8-30 (mole %) Al2O3 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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33. The organic light emitting diode display of claim 30, wherein said doped sealing glass fiber has a composition designed to be heated by a visible wavelength laser.
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34. The organic light emitting diode display of claim 33, wherein said composition is a follows:
Co3O4 0.5-3 (mole %) B2O3 8-30 (mole %) Al2O 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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35. The organic light emitting diode display of claim 30, wherein said doped sealing glass fiber has a composition designed to be heated by an ultraviolet wavelength laser.
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36. The organic light emitting diode display of claim 35, wherein said composition is a follows:
CeO2 1-4 (mole %) TiO2 0.0-3 (mole %) B2O3 8-30 (mole %) Al2O3 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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37. The organic light emitting diode display of claim 35, wherein said composition is a follows:
Al2O 0-15 (mole %) B2O3 10-30 (mole %) Li2O 0-3 (mole %) Na2O 3-8 (mole %) K2O 0-4 (mole %) CuO 0.2-1 (mole %) SnO 0.1-1 (mole %) Br 0.2-1 (mole %) Cl 0-2 (mole %) F 0-6 (mole %) CeO2 0-3 (mole %) SiO2 balance.
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38. The organic light emitting diode display of claim 30, wherein said doped sealing glass fiber is made from a multi-component glass doped with at least one transition or rare earth metal such as iron, copper, vanadium, manganese, cobalt, nickel, chromium, neodymium or cerium.
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31. The organic light emitting diode display of claim 30, wherein said doped sealing glass fiber has a composition designed to be heated by an infrared wavelength laser.
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39. A doped sealing glass plate which includes at least one transition or rare earth metal and also includes a swelled portion which forms a hermetic seal that connects said doped glass plate to a glass plate and also creates a gap between said doped glass plate and said glass plate.
- View Dependent Claims (40, 41, 42, 43, 44, 45, 46, 47, 48)
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40. The doped sealing glass plate of claim 39, wherein said doped sealing glass plate has a composition which can be heated by an infrared wavelength laser.
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41. The doped sealing glass plate of claim 40, wherein said composition is a follows:
Fe2O3 0.0-5 (mole %) V2O5 0.0-4 (mole %) TiO2 0.0-5 (mole %) CuO 0.0-10 (mole %) NiO 0.0-3 (mole %) B2O3 8-30 (mole %) Al2O3 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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42. The doped sealing glass plate of claim 39, wherein said doped sealing glass plate has a composition which can be heated by a visible wavelength laser.
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43. The doped sealing glass plate of claim 42, wherein said composition is a follows:
Co3O4 0.5-3 (mole %) B2O3 8-30 (mole %) Al2O 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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44. The doped sealing glass plate of claim 39, wherein said doped sealing glass plate has a composition which can be heated by an ultraviolet wavelength laser.
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45. The doped sealing glass plate of claim 44, wherein said composition is a follows:
CeO2 1-4 (mole %) TiO2 0.0-3 (mole %) B2O3 8-30 (mole %) Al2O3 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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46. The doped sealing glass plate of claim 44, wherein said composition is a follows:
Al2O 0-15 (mole %) B2O3 10-30 (mole %) Li2O 0-3 (mole %) Na2O 3-8 (mole %) K2O 0-4 (mole %) CuO 0.2-1 (mole %) SnO 0.1-1 (mole %) Br 0.2-1 (mole %) Cl 0-2 (mole %) F 0-6 (mole %) CeO2 0-3 (mole %) SiO2 balance.
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47. The doped sealing glass plate of claim 39, wherein said doped sealing glass plate is a laminated glass plate with a clear glass layer and an absorbing glass layer.
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48. The doped sealing glass plate of claim 39, wherein said doped sealing glass plate is made from a multi-component glass doped with at least one transition or rare earth metal such as iron, copper, vanadium, manganese, cobalt, nickel, chromium, neodymium or cerium.
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40. The doped sealing glass plate of claim 39, wherein said doped sealing glass plate has a composition which can be heated by an infrared wavelength laser.
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49. A doped sealing glass fiber which includes at least one transition or rare earth metal and which is heated in a manner that causes said doped sealing glass fiber to soften and form a hermetic seal which connects a first glass plate to a second glass plate.
- View Dependent Claims (50, 51, 52, 53, 54, 55, 56, 57)
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50. The doped sealing glass fiber of claim 49, wherein said doped sealing glass fiber has a composition which can be heated by an infrared wavelength laser.
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51. The doped sealing glass fiber of claim 50, wherein said composition is a follows:
Fe2O3 0.0-5 (mole %) V2O5 0.0-4 (mole %) TiO2 0.0-5 (mole %) CuO 0.0-10 (mole %) NiO 0.0-3 (mole %) B2O3 8-30 (mole %) Al2O3 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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52. The doped sealing glass fiber of claim 49, wherein said doped sealing glass fiber has a composition which can be heated by a visible wavelength laser.
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53. The doped sealing glass fiber of claim 52, wherein said composition is a follows:
Co3O4 0.5-3 (mole %) B2O3 8-30 (mole %) Al2O 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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54. The doped sealing glass fiber of claim 49, wherein said doped sealing glass fiber has a composition which can be heated by an ultraviolet wavelength laser.
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55. The doped sealing glass fiber of claim 54, wherein said composition is a follows:
CeO2 1-4 (mole %) TiO2 0.0-3 (mole %) B2O3 8-30 (mole %) Al2O3 1.2-12 (mole %) Li2O 0-2 (mole %) Na2O 0-6 (mole %) K2O 0-3 (mole %) MO 0-3 (mole %) (M = Mg, Ca, Sr, Ba, Zn) Other 0-3 (mole %) SiO2 balance.
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56. The doped sealing glass fiber of claim 54, wherein said composition is a follows:
Al2O 0-15 (mole %) B2O3 10-30 (mole %) Li2O 0-3 (mole %) Na2O 3-8 (mole %) K2O 0-4 (mole %) CuO 0.2-1 (mole %) SnO 0.1-1 (mole %) Br 0.2-1 (mole %) Cl 0-2 (mole %) F 0-6 (mole %) CeO2 0-3 (mole %) SiO2 balance.
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57. The doped sealing glass fiber of claim 49, wherein said doped sealing glass fiber is made from a multi-component glass doped with at least one transition or rare earth metal such as iron, copper, vanadium, manganese, cobalt, nickel, chromium, neodymium or cerium.
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50. The doped sealing glass fiber of claim 49, wherein said doped sealing glass fiber has a composition which can be heated by an infrared wavelength laser.
Specification
- Resources
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Current AssigneeCorning Incorporated
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Original AssigneeCorning Incorporated
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InventorsDickinson, James E. Jr., Danielson, Paul S., Schroeder, Joseph F. III, Aitken, Bruce G., Streltsov, Alexander, Morena, Robert, Reddy, Kamjula P., Powley, Mark L., Logunov, Stephan L.
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Application NumberUS10/965,453Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current257/99CPC Class CodesC03B 23/245 Hollow glass sheetsC03C 27/06 Joining glass to glass by p...C03C 3/091 containing aluminiumC03C 3/093 containing zinc or zirconiumC03C 3/108 containing boronC03C 8/04 containing zincC03C 8/10 containing leadC03C 8/24 Fusion seal compositions be...H10K 50/841 Self-supporting sealing arr...H10K 50/8426 Peripheral sealing arrangem...H10K 59/8722 Peripheral sealing arrangem...