Rapid debinding via internal fluid channels

What is claimed is: 1. A method of depositing material for additive manufacturing, comprising: supplying a composite material including a first binder matrix and a sinterable powder; depositing the composite material in successive layers of a wall of a part to form a first access channel penetrating from an exterior of the part, through the wall, to an interior of the part; depositing the composite material in successive layers of infill in the interior of the part to form at least one distribution channel connecting a substantially enclosed volume of the infill to the first access channel; flowing, during primary debinding, a debinding fluid through the first access channel and the at least one distribution channel and within the substantially enclosed volume of the infill to debind the first binder matrix; and after the primary debinding, drying out the debinding fluid from the part via heat transfer provided by the first access channel and the at least one distribution channel. 2. The method according to claim 1 , wherein flowing the debinding fluid includes flowing liquid solvent through the first access channel and the at least one distribution channel with a part washer. 3. The method according to claim 1 , further comprising: depositing the composite material in successive layers of the wall of the part to form a second access channel penetrating from the exterior of the part, through the wall, to the interior of the part, wherein flowing the debinding fluid includes flowing the debinding fluid into the part through the first access channel, into the substantially enclosed volume of the infill via the at least one distribution channel, and out of the part through the second access channel. 4. The method according to claim 3 , further comprising: connecting the first access channel to a pressurized supply of debinding fluid, wherein flowing the debinding fluid includes forcing the debinding fluid through the first access channel, the at least one distribution channel, and the second access channel with the pressurized supply. 5. The method according to claim 1 , wherein depositing the composite material in successive layers of the infill includes depositing the composite material in successive layers of honeycomb infill in the interior of the part to form the at least one distribution channel connecting the substantially enclosed volume of the honeycomb infill to the first access channel. 6. The method according to claim 5 , wherein depositing the composite material in successive layers of the honeycomb infill includes depositing the composite material in successive layers of the honeycomb infill in the interior of the part to form a plurality of distribution channels connecting the substantially enclosed volume of the honeycomb infill to the first access channel, at least some of the plurality of distribution channels being of different lengths. 7. The method according to claim 1 , further comprising: supplying a material including a second binder matrix; applying the material to the part; heating, during secondary debinding, the part to pyrolyse the second binder matrix into a gas; and removing the gas from the part via the first access channel and the at least one distribution channel. 8. The method according to claim 7 , wherein heating including heating the part in an oven. 9. A method of depositing material for additive manufacturing, comprising: supplying a composite material including a first binder matrix and a sinterable powder; depositing the composite material in successive layers of a wall of a part to form a first access channel penetrating from an exterior of the part, through the wall, to an interior of the part; depositing the composite material in successive layers of honeycomb infill in the interior of the part to form at least one distribution channel connecting a substantially enclosed volume of the honeycomb infill to the first access channel; and debinding the first binder matrix by flowing a debinding fluid through the first access channel and the at least one distribution channel and within the substantially enclosed volume of the honeycomb infill. 10. The method according to claim 9 , further comprising: depositing the composite material in successive layers of the wall of the part to form a second access channel penetrating from the exterior of the part, through the wall, to the interior of the part, wherein flowing the debinding fluid includes flowing the debinding fluid into the part through the first access channel, into the substantially enclosed volume of the infill via the at least one distribution channel, and out of the part through the second access channel. 11. The method according to claim 10 , further comprising: connecting the first access channel to a pressurized supply of debinding fluid, wherein flowing the debinding fluid includes forcing the debinding fluid through the first access channel, the at least one distribution channel, and the second access channel with the pressurized supply. 12. The method according to claim 9 , wherein depositing the composite material in successive layers of the honeycomb infill includes depositing the composite material in successive layers of the honeycomb infill in the interior of the part to form a plurality of distribution channels connecting the substantially enclosed volume of the honeycomb infill to the first access channel, at least some of the plurality of distribution channels being of different lengths. 13. The method according to claim 9 , further comprising: after debinding the first binder matrix, drying out the debinding fluid from the part via heat transfer provided by the first access channel and the at least one distribution channel. 14. The method according to claim 9 , further comprising: supplying a material including a second binder matrix; applying the material to the part; heating, after debinding the first binder matrix, the part to pyrolyse the second binder matrix into a gas; and removing the gas from the part via the first access channel and the at least one distribution channel. 15. A method of depositing material for additive manufacturing, comprising: supplying a composite material including a first binder matrix and a sinterable powder; supplying a material including a second binder matrix; depositing the composite material in successive layers of a wall of a part to form a first access channel penetrating from an exterior of the part, through the wall, to an interior of the part; depositing the composite material in successive layers of infill in the interior of the part to form at least one distribution channel connecting a substantially enclosed volume of the infill to the first access channel; applying the material to the part; flowing, during primary debinding, a debinding fluid through the first access channel and the at least one distribution channel and within the substantially enclosed volume of the infill to debind the first binder matrix; heating, during secondary debinding, the part to pyrolyse the second binder matrix into a gas; and removing the gas from the part via the first access channel and the at least one distribution channel. 16. The method according to claim 15 , further comprising: depositing the composite material in successive layers of the wall of the part to form a second access channel penetrating from the exterior of the part, through the wall, to the interior of the part, wherein flowing the debinding fluid includes flowing the debinding fluid into the part through the first access channel, into the subst