Furnace muffle for sintering a ribbon material

What is claimed is: 1. A furnace muffle for manufacturing, comprising: a cover configured to transfer heat from a heat source to a workpiece, wherein the cover comprises a first set of plates comprising a first material having a first thermal conductivity and a second set of plates comprising a second material having a second thermal conductivity greater than the first thermal conductivity, and wherein the first set of plates is positioned closer to an opening of the furnace muffle than the second set of plates; a contact plate configured to support the workpiece; and a plurality of walls configured such that the contact plate is separated from the cover by a gap between the walls. 2. The furnace muffle of claim 1 , wherein: a first zone of the furnace muffle comprises the first set of plates and a second zone of the furnace muffle comprises the second set of plates; and the cover is configured such that a temperature of the second zone can be above about 1600 degrees Celsius. 3. The furnace muffle of claim 1 , wherein at least a subset of the first set of plates, or at least a subset of the second set of plates, or both are modular such that the subset of the first set of plates, or the subset of the second set of plates, or both can be repositioned relative to the opening of the furnace muffle. 4. The furnace muffle of claim 1 , further comprising: a support in contact with the contact plate and the walls, wherein the support comprises the first material, or the second material, or both. 5. The furnace muffle of claim 1 , wherein: the width of the gap between the walls is greater than about 8.5 inches; and a height of the gap between the cover and the contact plate is at least 0.5 inches. 6. The furnace muffle of claim 5 , wherein the width of the gap between the walls is greater than about 14 inches and less than about 18 inches. 7. The furnace muffle of claim 1 , wherein the height of the cover is between 1 inch and 6 inches. 8. The furnace muffle of claim 1 , wherein: the width of the gap between the walls is about 14.75 inches or about 17.75 inches; and the height of the cover is about 4 inches. 9. The furnace muffle of claim 1 , wherein: the cover further comprises a third set of plates comprising the first material; and the third set of plates is positioned farther from the opening of the furnace muffle than the first set of plates and the second set of plates and closer to a second opening of the furnace muffle than the first set of plates and the second set of plates. 10. The furnace muffle of claim 1 , wherein: the first material comprises an AX799 alumina refractory material; the second material comprises a Mono A2 alumina refractory material; and the workpiece comprises an alumina ribbon material. 11. A method of manufacturing, comprising: heating a ribbon material in a first zone of a furnace muffle using a first set of plates of a cover for transferring heat from a heat source to the ribbon material, wherein the first set of plates comprises a first material having a first thermal conductivity; moving the ribbon material from the first zone to a second zone of the furnace muffle while a contact plate supporting the ribbon material is separated from the cover by a gap, wherein the gap has a width greater than 8.5 inches between a plurality of walls; and heating the ribbon material in the second zone of the furnace muffle using a second set of plates of the cover such that a temperature of the second zone increases above about 1600 degrees Celsius, wherein the second set of plates comprises a second material having a second thermal conductivity greater than the first thermal conductivity. 12. The method of claim 11 , wherein heating the ribbon material in the first zone of the furnace muffle and heating the ribbon material in the second zone of the furnace muffle are concurrent with moving the ribbon material from the first zone to the second zone. 13. The method of claim 11 , further comprising: moving the ribbon material from the second zone to a third zone of the furnace muffle; and heating the ribbon material in the third zone of the furnace muffle using a third set of plates of the cover, wherein the third set of plates comprises the first material having the first thermal conductivity, and wherein a temperature of the third zone is less than a temperature of the second zone. 14. The method of claim 11 , further comprising: adding or removing one or more plates of the first set of plates, or the second set of plates, to adjust a size of the first zone, or the second zone, or both, wherein heating the ribbon material in the first zone, or the second zone, or both is based at least in part on adding or removing the one or more plates. 15. A system, comprising: a ribbon material; and a furnace comprising: a heat source comprising one or more heaters; a furnace muffle configured to transfer heat from the heat source to the ribbon material, wherein the furnace muffle comprises: a cover comprising a first set of plates in a first zone and comprising a first material and a second set of plates in a second zone and comprising a second material, wherein the first set of plates in the first zone is positioned closer to an opening of the furnace muffle than the second set of plates in the second zone, and wherein the cover is configured such that a temperature of the second zone can increase above about 1600 degrees Celsius; and a contact plate configured to support the ribbon material and separated from the cover by a gap, wherein a width of the gap is greater than 8.5 inches. 16. The system of claim 15 , wherein: a length of the first zone, a length of the second zone, or a length of a third zone, or any combination thereof, are adjustable based at least in part on one or more added plates or one or more removed plates of the first set of plates, of the second set of plates, or of a third set of plates in the third zone, or any combination thereof; and the third set of plates in the third zone is positioned farther from the opening of the furnace muffle than the first set of plates and the second set of plates. 17. The system of claim 15 , wherein the furnace muffle further comprises: a plurality of walls and configured such that the contact plate is separated from the cover by the gap between the walls; and a support in contact with the contact plate and the walls, wherein the support comprises one or more of the first material or the second material. 18. The system of claim 17 , wherein the cover is in contact with the walls, and the support is in contact with the walls and the contact plate such that the cover, the walls, the support, and the contact plate are configured to maintain contact as a temperature of the furnace muffle changes. 19. The system of claim 17 , wherein the cover, the walls, the support, and the contact plate are configured such that the width of the gap and a height of the gap that is at least 0.5 inches are maintained during thermal expansion and thermal contraction of the furnace muffle. 20. The system of claim 15 , wherein: the first material comprises an AX799 alumina refractory material; and the second material comprises a Mono A2 alumina refractory material.