Molten material thermocouple methods and apparatus

What is claimed is: 1. A molten material apparatus comprising: a container including a wall at least partially defining a containment area and an opening extending through the wall; a protective sleeve mounted at least partially within the opening of the wall of the container, the protective sleeve including a first end portion, a second end portion opposite the first end portion, and an internal bore including an open end at the first end portion and a dosed end defined by an inner end surface of the second end portion; a thermocouple positioned within the internal bore of the protective sleeve and biased towards the inner end surface of the second end portion; and a layer of solid glass lining an inner surface of the wall of the container, wherein the solid glass seals an interface between the wall of the container and the protective sleeve; wherein the wall of the container comprises one or more internal liquid paths operable to cool the wall of the container through the circulation of a liquid. 2. The molten material apparatus of claim 1 , wherein the protective sleeve is fabricated from a refractory ceramic material. 3. The molten material apparatus of claim 2 , wherein the refractory ceramic material includes a chemical compound selected from the group consisting of: tin oxide, chrome oxide, and fused zirconia. 4. The molten material apparatus of claim 1 , wherein the thermocouple comprises a platinum/rhodium alloy thermocouple. 5. The molten material apparatus of claim 4 , wherein the thermocouple comprises a type B thermocouple. 6. The molten material apparatus of claim 1 , wherein the thermocouple contacts the inner end surface of the second end portion. 7. The molten material apparatus of claim 1 , further comprising a support sleeve at least partially positioned within the internal bore of the protective sleeve, the support sleeve including a first end portion, a second end portion opposite the first end portion of the support sleeve, and an internal bore including an open end at the first end portion of the support sleeve. 8. The molten material apparatus of claim 7 , wherein the internal bore of the support sleeve further includes a closed end defined by an inner end surface of the second end portion of the support sleeve, and the thermocouple is positioned within the internal bore of the support sleeve and biased against the inner end surface of the second end portion of the support sleeve. 9. The molten material apparatus of claim 8 , wherein an outer end surface of the second end portion of the support sleeve is biased against the inner end surface of the second end portion of the protective sleeve. 10. The molten material apparatus of claim 7 , wherein the support sleeve comprises a platinum or a platinum alloy. 11. The molten material apparatus of claim 1 , wherein the protective sleeve extends within the containment area by a distance of from greater than 0 cm to about 25 cm from an inner surface of the wall of the container. 12. The molten material apparatus of claim 1 , further comprising molten glass-forming material within the containment area of the container. 13. The molten material apparatus of claim 12 , wherein the molten glass-forming material comprises metal. 14. The molten material apparatus of claim 12 , wherein the layer of solid glass separates the container from the molten glass-forming material. 15. A molten material apparatus comprising: a container including a wall at least partially defining a containment area and an opening extending through the wall; a protective sleeve mounted at least partially within the opening of the wall of the container, wherein the protective sleeve is fabricated from a refractory ceramic material that includes a chemical compound selected from the group consisting of: tin oxide, chrome oxide, and fused zirconia; a thermocouple positioned within an internal bore of the protective sleeve; and a layer of solid glass lining an inner surface of the wall of the container, wherein the solid glass seals an interface between the wall of the container and the protective sleeve; wherein the wall of the container comprises one or more internal liquid paths operable to cool the wall of the container through the circulation of a liquid. 16. The molten material apparatus of claim 15 , wherein the thermocouple comprises a platinum/rhodium alloy thermocouple. 17. The molten material apparatus of claim 16 , wherein the thermocouple comprises a type B thermocouple. 18. The molten material apparatus of claim 15 , wherein the thermocouple contacts an inner end surface of the protective sleeve that at least partially defines the internal bore. 19. The molten material apparatus of claim 15 , further comprising a support sleeve at least partially positioned within the internal bore of the protective sleeve. 20. The molten material apparatus of claim 19 , wherein the thermocouple is positioned within an internal bore of the support sleeve. 21. The molten material apparatus of claim 20 , wherein the thermocouple contacts an inner end surface of the support sleeve that defines a closed end of the internal bore of the support sleeve, and an outer end surface of the support sleeve contacts an inner end surface of the protective sleeve that at least partially defines the internal bore of the protective sleeve. 22. The molten material apparatus of claim 19 , wherein the support sleeve comprises a platinum or a platinum alloy. 23. The molten material apparatus of claim 15 , wherein the protective sleeve extends within the containment area by a distance of from greater than 0 cm to about 25 cm from an inner surface of the wall of the container. 24. The molten material apparatus of claim 15 , further comprising molten glass-forming material within the containment area of the container. 25. The molten material apparatus of claim 24 , wherein the molten glass-forming material comprises metal.