Techniques for depowdering additively fabricated parts via rapid pressure change and related systems and methods

What is claimed is: 1. A depowdering system for removing powder from one or more additively fabricated parts comprising bound metal powder and having unbound metal powder on their surface, the depowdering system comprising: a chamber having a length and a height, wherein the ratio of the length to the height is between 2 and 5, the chamber comprising: a door configured to be opened and closed such that the one or more additively fabricated parts can be introduced into the chamber when the door is opened; a holder arranged within the chamber at a first side of the chamber and configured to hold the one or more additively fabricated parts; and a first valve arranged at a second side of the chamber, the second side opposing the first side of the chamber; and at least one processor configured to control at least the first valve to perform a series of depowdering operations, each depowdering operation comprising: pressurizing the interior of the chamber to a first pressure; and opening the first valve to a second pressure, lower than the first pressure, to depressurize the interior of the chamber. 2. The depowdering system of claim 1 , wherein the holder comprises a bag in which the one or more additively fabricated parts may be sealed. 3. The depowdering system of claim 1 , wherein the holder comprises a cage. 4. The depowdering system of claim 1 , further comprising one or more actuators coupled to the first valve, and wherein opening the first valve by the at least one processor comprises operating the one or more actuators to open the first valve. 5. The depowdering system of claim 1 , further comprising a plurality of baffles arranged within the chamber between the holder and the first valve. 6. The depowdering system of claim 1 , further comprising a filter arranged between the first valve and the interior of the chamber. 7. The depowdering system of claim 1 , further comprising a pressure seal configured to be coupled to the door when the door is closed. 8. The depowdering system of claim 1 , further comprising a source of compressed gas coupled to the chamber. 9. The depowdering system of claim 8 , further comprising a second valve, and wherein the source of compressed gas is coupled to the chamber via the second valve. 10. The depowdering system of claim 9 , wherein the at least one processor is configured to pressurize the interior of the chamber to the first pressure by opening the second valve to a source of the first pressure. 11. The depowdering system of claim 8 , wherein the source of compressed gas is coupled to the chamber via the first valve. 12. The depowdering system of claim 1 , wherein the chamber further comprises a transparent window. 13. The depowdering system of claim 1 , wherein opening the first valve to the second pressure comprises opening the first valve to atmospheric pressure. 14. The depowdering system of claim 1 , wherein opening the first valve to the second pressure comprises opening the first valve to a vacuum pump. 15. The depowdering system of claim 1 , wherein opening the first valve to the second pressure comprises opening the first valve to a pressure below that of atmospheric pressure.