Composite isopipe

What is claimed is: 1. An apparatus for making a glass sheet using a fusion process comprising: a forming body having an upper part made of a first material and a lower part made of a second material below said upper part, wherein the upper part comprises two upper trough walls and a trough bottom defining a trough space for accepting molten glass, and the lower part has a wedge-shaped cross-section having two major surfaces sloping downwardly to join at a root, and the side walls of the upper part and the lower part form substantially two continuous forming surfaces on which streams of molten glass can flow downwardly to join at the root during normal operation; and a furnace enclosing the forming body configured to maintain the upper part of the forming body at a substantially constant temperature, and to maintain the lower part of the forming body to have a temperature gradient of deltaT=Ttop−Troot, where Ttop is the temperature of the top of the lower part, Troot is the temperature of the root of the lower part, and deltaT≧10° C.; wherein the first material consists essentially of α-SiC, silicon nitride or silicon oxynitride, and the second material consists essentially of zircon. 2. The apparatus of claim 1 wherein deltaT≧20° C. 3. The apparatus of claim 1 wherein the first material has a creep rate at 1200° C. of CR1, and the second material has a creep rate at 1200° C. of CR2, and CR1<CR2. 4. The apparatus of claim 3 , wherein CR2/CR1>10 3 . 5. The apparatus of claim 1 , wherein the upper part of the forming body comprises a cavity, the cavity further comprising a heating element inside the cavity configured to heat the forming body. 6. The apparatus of claim 1 , wherein the furnace is configured to maintain the upper part at a substantially constant temperature within a temperature range of Tav±10° C. from upper surfaces of the trough walls to an interface between the upper and lower parts. 7. An apparatus for making a glass sheet using a fusion process comprising: a forming body having an upper part made of a first material and a lower part made of a second material below said upper part, wherein the upper part comprises two upper trough walls each having an upper surface and a trough bottom defining a trough space for accepting molten glass, and the lower part has a wedge-shaped cross-section having two major surfaces sloping downwardly to join at a root, and the side walls of the upper part and the lower part form substantially two continuous forming surfaces on which streams of molten glass can flow downwardly to join at the root during normal operation; and a furnace enclosing the forming body configured to maintain the upper part of the forming body at a substantially constant temperature within a temperature range of Tav±10° C. from the upper surfaces to an interface between the upper and lower parts; wherein the first material consists essentially of α-SiC, silicon nitride or silicon oxynitride, and the second material consists essentially of zircon. 8. The apparatus of claim 7 , wherein Tav is ±4° C. 9. The apparatus of claim 7 , wherein the first material has a creep rate at 1200° C. of CR1, and the second material has a creep rate at 1200° C. of CR2, and CR1<CR2. 10. The apparatus of claim 9 , wherein CR2/CR1>10 3 . 11. The apparatus of claim 7 , wherein the upper part of the forming body comprises a cavity, the cavity further comprising a heating element inside the cavity configured to heat the forming body. 12. The apparatus of claim 7 , wherein the furnace is configured to maintain the lower part of the forming body to have a temperature gradient of deltaT=Ttop−Troot, where Ttop is the temperature of the top of the lower part, Troot is the temperature of the root of the lower part. 13. An apparatus for making a glass sheet using a fusion process comprising: a forming body having an upper part made of a first material and a lower part made of a second material below said upper part, wherein the upper part comprises two upper trough walls and a trough bottom defining a trough space for accepting molten glass, and the lower part has a wedge-shaped cross-section having two major surfaces sloping downwardly to join at a root, and the side walls of the upper part and the lower part form substantially two continuous forming surfaces on which streams of molten glass can flow downwardly to join at the root during normal operation; and a furnace enclosing the forming body configured to maintain the upper part of the forming body at a substantially constant temperature, and to maintain the lower part of the forming body to have a temperature gradient of deltaT=Ttop−Troot, where Ttop is the temperature of the top of the lower part, Troot is the temperature of the root of the lower part, and deltaT≧10° C.; wherein the first material has a creep rate at 1200° C. of CR1, the second material has a creep rate at 1200° C. of CR2, and CR2/CR1>10 3 . 14. An apparatus for making a glass sheet using a fusion process comprising: a forming body having an upper part made of a first material and a lower part made of a second material below said upper part, wherein the upper part comprises two upper trough walls each having an upper surface and a trough bottom defining a trough space for accepting molten glass, and the lower part has a wedge-shaped cross-section having two major surfaces sloping downwardly to join at a root, and the side walls of the upper part and the lower part form substantially two continuous forming surfaces on which streams of molten glass can flow downwardly to join at the root during normal operation; and a furnace enclosing the forming body configured to maintain the upper part of the forming body at a substantially constant temperature within a temperature range of Tav±10° C. from the upper surfaces to an interface between the upper and lower parts; wherein the first material has a creep rate at 1200° C. of CR1, the second material has a creep rate at 1200° C. of CR2, and CR2/CR1>10 3 .