Compound Furnace

What is claimed is: 1 . A compound sintering furnace with managed contamination for debinding and sintering parts, comprising: an outer insulation layer; an inner insulation layer disposed within the outer insulation layer and having an internal hot face surrounding a work zone; a sealed housing surrounding the inner insulation layer and composed of a refractory material capable of withstanding a service temperature, the service temperature being greater than a debinding temperature that is less than 1000 C, and less than a sintering temperature that is greater than 1250 C; an outer heater system configured to heat at least a portion of the sealed housing and externally heat the inner insulation layer to (i) in conjunction with an inner heater system, heat the work zone to the debinding temperature and (ii) inhibit condensation of a binder within and upon the inner insulation layer during a debinding process; and wherein the inner heater system is configured to internally heat the inner insulation and contribute a majority of heating to heat the work zone to the sintering temperature during a sintering process. 2 . The compound sintering furnace of claim 1 , further comprising: a housing door operable as an openable and closeable portion of the sealed housing; an outer door insulation that serves as a portion of the outer insulation layer and an inner door insulation that serves as a portion of the inner insulation layer, wherein the outer door insulation is disposed between the housing door and the inner door insulation; a high-temperature seal arrangement disposed between the outer door insulation and the inner door insulation and configured for providing gaseous isolation therebetween, and the high temperature seal arrangement includes an inner seal and an outer seal in gaseous communication with a gas channel disposed between the inner seal and outer seal; and a gas feed configured to deliver a sweep gas to the gas channel such that the sweep gas transits through the outer seal to inhibit ingress of gaseous contaminants from the outer seal to the inner seal. 3 . The compound sintering furnace of claim 1 further comprising: at least one gas feedline configured to deliver process gas to the work zone; and at least one vacuum line configured to apply a vacuum to an interior of the sealed housing. 4 . The compound sintering furnace of claim 3 further comprising: at least one hollow inlet stub serving as said feedline and traversing the outer insulation layer from an outside cold end, outside the outer insulation layer, to an open hot end that is inside the outer insulation layer and is sealed with respect to the sealed housing; wherein the cold end includes (i) an inlet for injecting process gas through the inlet stub to an interior of the sealed housing and (ii) an electrical feedthrough sealed to the inlet stub and to an electrode, wherein the electrode is electrically isolated from the inlet stub and extends within the inlet stub from the outside cold end to the open hot end. 5 . The compound furnace of claim 4 wherein the electrode is electrically connected to one of (i) the inner heater system for providing electrical power thereto and (ii) a temperature sensor for monitoring a temperature within the work zone. 6 . The compound furnace of claim 3 further comprising at least one hollow outlet stub serving as said vacuum line and traversing the outer insulation layer from an outside cold end, outside the outer insulation, to an open hot end that is inside the outer insulation and is sealed with respect to the sealed housing, and the cold end includes (i) an outlet for applying said vacuum and (ii) and an electrical feedthrough sealed to the outlet stub an electrode, wherein the electrode is electrically isolated from the outlet stub and extends within the outlet stub from the outside cold end to the open hot end. 7 . The compound furnace of claim 6 wherein the electrical conductor is electrically connected to one of (i) the inner heater for providing electrical power thereto and (ii) a temperature sensor for monitoring temperature within the work zone. 8 . The compound sintering furnace of claim 1 wherein the outer insulation layer includes a first insulation material that can repeatedly withstand heating by the outer heaters to a maximum temperature that is greater than the debinding temperature, and less than the sintering temperature and the inner insulation layer includes a second insulation material, different from the first insulation material, that can repeatedly withstand sintering temperatures that are greater than 1250 C. 9 . The compound sintering furnace of claim 1 further comprising at least one cooling channel traversing through the outer insulation layer. 10 . A compound sintering furnace with managed contamination, comprising: an outer insulation at least partially enclosing a sealed housing; an inner insulation disposed within the sealed housing; an inner heater system including at least one inner heater and disposed within the sealed housing and configured to heat a work zone an outer heater system including at least one outer heater; at least one controller configured to operate the inner heater system and outer heater system, cooperatively with one another, to heat the work zone to a sintering temperature of at least 1250 C; and wherein the outer heater system is configured to heat the inner insulation layer from outside the sealed housing to a temperature at which contaminants outgassed from a part, heated to a debind temperature, are inhibited from condensing in the inner insulation layer. 11 . The compound sintering furnace of claim 10 , further comprising: a plate including: an inner seal; an outer seal including a channel; a feed configured to deliver a sweep gas to between the inner seal and the outer seal such that the sweep gas transits through the outer seal. 12 . The compound sintering furnace of claim 10 further comprising: at least one gas feedline configured to deliver process gas to the work zone; and at least one vacuum line configured to apply a vacuum to an interior of the sealed housing. 13 . The compound sintering furnace of claim 10 further comprising an electrical feedthrough traversing the outer insulation layer from outside the insulation to the sealed housing. 14 . The compound sintering furnace of claim 10 wherein the sealed housing includes a feedthrough stub extending from the sealed housing to outside the outer insulation layer. 15 . The compound sintering furnace of claim 13 further comprising a heater system configured to heat an interior of the feedthrough stub at least during debinding to inhibit condensation of contaminants therein. 16 . The compound sintering furnace of claim 13 further comprising: an electrode connecting at least one of a heater and a temperature sensor disposed in the sealed housing to a controller disposed outside the outer insulation layer; and wherein the electrode traverses the outer insulation layer via the feedthrough. 17 . The compound sintering furnace of claim 10 wherein the outer insulation layer is formed from a first material capable of withstanding a service temperature, the service temperature being greater than a debinding temperature that is less than 1000 C, and less than a sintering temperature that is greater than 1250 C and the inner insulation layer is formed from a second material different from the first material and the second material can withstand the sintering temperature. 18 .