Systems and methods for providing inert environments for additive manufacturing and processing

What is claimed: 1 . A method of providing an inert environment during a processing step, comprising: disposing a build box in a processing chamber of an oven having an ambient processing environment, wherein the build box includes a build box body and a lid, wherein the build box body encompasses at least one part of bound build material powder and a body of unbound build material powder; conducting a heating process in the processing chamber to cure the part; during at least a portion of the heating process, delivering a flow of process gas to an interior of the build box sufficient to provide an inert environment within the interior of the build box and cause an outflow of exhaust from the build box; and wherein the flow of process gas is delivered to a top of the interior of the build box, via a distribution plenum including at least one baffle that prevents direct impingement of the body of unbound build material by the flow of process gas, and the outflow of exhaust flows through an exhaust outlet in the top of the build box. 2 . The method of claim 1 wherein the exhaust outlet includes a valve preventing backflow. 3 . The method of claim 1 wherein the exhaust outlet includes an outlet tube having a length-to average-cross-section area ratio that in conjunction with the outflow of the exhaust substantially prevents a backflow through the outlet tube. 4 . The method of claim 1 further comprising the step of cooling the build box using a flow of ambient air over the build box. 5 . A method of providing an inert environment during a processing step, comprising: disposing a build box in a processing chamber of an oven having an ambient processing environment, wherein the build box includes a build box body and a lid, wherein the build box body encompasses at least one part of bound build material powder and a body of unbound build material powder; conducting a heating process in the processing chamber to heat the part; during at least a portion of the heating process, delivering a flow of process gas to an interior of the build box sufficient to provide an inert environment within the interior of the build box and cause an outflow of exhaust from the build box; and wherein the flow of process gas is delivered to a top of the interior of the build box and at a pressure sufficiently high to cause the outflow of exhaust from a bottom of the build box body through an exhaust plenum, the bottom of the build box having a porosity sufficiently higher than a porosity of the remainder of the build box body to facilitate the outflow of exhaust from the bottom of the build box body. 6 . The method of claim 5 wherein the exhaust plenum includes a valve preventing backflow. 7 . The method of claim 5 wherein the exhaust plenum includes an outlet tube having a length-to average-cross-section area ratio that in conjunction with the outflow of the exhaust substantially prevents a backflow through the outlet tube. 8 . The method of claim 5 further comprising the step of cooling the build box using a flow of ambient air over the build box. 9 . A method of providing an inert environment during a processing step, comprising: disposing a build box in a processing chamber of an oven having an ambient processing environment, wherein the build box includes a build box body and a lid, wherein the build box body encompasses at least one part of bound build material powder and a body of unbound build material powder; conducting a heating process in the processing chamber to heat the part; and during at least a portion of the heating process, delivering a flow of process gas to an interior of the build box sufficient to provide an inert environment within the interior of the build box and cause an outflow of exhaust from the build box. 10 . The method of claim 1 wherein the flow of process gas is delivered to a top of the interior of the build box and at a pressure sufficiently high to cause the outflow of exhaust from a bottom of the build box body. 11 . The method of claim 2 wherein the bottom of the build box body has a porosity sufficiently higher than a porosity of the remainder of the build box body to facilitate the outflow of exhaust from the bottom of the build box body. 12 . The method of claim 1 wherein the flow of process gas is delivered to a top of the interior of the build box and the outflow of exhaust flows through an exhaust outlet. 13 . The method of claim 4 wherein the exhaust outlet includes a valve preventing backflow. 14 . The method of claim 5 wherein the exhaust outlet includes an outlet tube having a length-to average-cross-section area ratio that in conjunction with the outflow of the exhaust substantially prevents a backflow through the outlet tube. 15 . The method of claim 1 further comprising the step of cooling the build box using a flow of ambient air over the build box. 16 . A build box configuration for post-printing processing, comprising: a build box having a build box body and a lid; wherein the build box body encompasses at least one part of bound build material powder and a body of unbound build material powder; a gas supply line connected to the lid of the build box and configured to deliver a flow of process gas to an interior of the build box, from a gas supply, sufficient to provide an inert environment within the interior of the build box and cause an outflow of exhaust from the build box.