Filter assembly

The invention claimed is: 1. An additive manufacturing apparatus comprising: a build chamber, a module for providing a focused energy beam for consolidating layer-by-layer powder material in the build chamber to build an article, a gas flow circuit for passing a flow of gas through the build chamber during the manufacturing process, and a filter assembly, the filter assembly comprising; a filter housing having a gas inlet and a gas outlet both said gas inlet and said gas outlet being detachably coupled to the gas flow circuit such that the filter assembly is removably-mountable to the additive manufacturing apparatus, a particulate filter element located within the filter housing between the gas inlet and the gas outlet and configured to filter at least one of volatile and explosive powder from the gas of the gas flow circuit, a first valve actuatable to seal the gas inlet, and a second valve actuatable to seal the gas outlet, wherein the filter housing is configured to allow liquid into the filter housing to flood the filter housing for entrapping the at least one of volatile and explosive powder held against the particulate filter element once the filter assembly has been removed from the additive manufacturing apparatus and is openable for removal of the particulate filter element, against which the at least one of volatile and explosive powder has been entrapped by the liquid, from the filter housing after flooding of the filter housing. 2. An apparatus according to claim 1 , in which the filter housing comprises, in addition to the gas inlet, a liquid inlet for allowing liquid into the filter housing. 3. An apparatus according to claim 1 , further comprising, in addition to the gas outlet, a liquid outlet for allowing liquid to flow from the filter housing. 4. An apparatus according to claim 1 , in which said particulate filter element divides the filter housing into an upstream section and a downstream section, the filter housing comprising: a first liquid inlet allowing ingress of fluid into the upstream section of the filter housing, and a second liquid inlet allowing liquid ingress into the downstream section of the filter housing. 5. An apparatus according to claim 1 , wherein the filter housing comprises clamp screws for clamping the first and second portions together. 6. An apparatus according to claim 1 , in which the filter housing comprises a flow diverter for directing gas flow from the gas inlet to the filter element. 7. An apparatus according to claim 1 , in which the filter housing comprises first and second portions configured to be separable for removal of the filter element, the first portion comprising the gas inlet and the second portion comprising the gas outlet. 8. An assembly according to claim 7 , in which the filter element is located by clamping between the first and second portions with clamping screws. 9. An apparatus according to claim 1 , in which the gas flow circuit comprises a gas circuit valve actuatable to seal the circuit upstream from the filter assembly prior to removal of the assembly. 10. An apparatus according to claim 1 , in which the gas flow circuit further comprises a gas circuit valve actuatable to seal the gas flow circuit downstream from the filter assembly prior to removal of the assembly. 11. An apparatus according to claim 1 , wherein the filter assembly is removed from the additive manufacturing apparatus in a sealed state. 12. A method of changing a particle filter element located within a filter housing mounted on an additive manufacturing apparatus, the additive manufacturing apparatus comprising: a build chamber, a module for providing a focused energy beam for consolidating layer-by-layer powder material in the build chamber to build an article, a gas flow circuit for passing a flow of gas through the build chamber during the manufacturing process, and a filter assembly comprising: the filter housing having a gas inlet and a gas outlet, a first valve actuatable to seal the gas inlet, and a second valve actuatable to seal the gas outlet, wherein the gas inlet and gas outlet are detachably coupled to the gas flow circuit such that the filter assembly is removably-mounted to the additive manufacturing apparatus and permit gas flow through the filter housing from the gas inlet to the gas outlet such that the filter element is configured to filter at least one of volatile and explosive powder from the gas of the gas flow circuit, the method comprising, in order: (a) closing the first valve to seal the gas inlet to the filter housing and closing the second valve to seal the gas outlet from the filter housing, (b) removing the filter assembly from the additive manufacturing apparatus, (c) connecting a source of liquid to the filter housing to flood the filter housing to entrap the at least one of volatile and explosive powder held against the filter element, and (d) opening the filter housing to remove the filter element, against which the at least one of volatile and explosive powder has been entrapped by the liquid, from the filter housing. 13. A method according to claim 12 , comprising replacing the filter element. 14. A method according to claim 12 , comprising providing a device to restrict back-flow of liquid to the source of liquid. 15. A method according to claim 12 , wherein the filter housing is flooded with the liquid such that such that the at least one of volatile and explosive powder in the filter housing is trapped in the liquid and do not escape to air. 16. A method according to claim 12 , wherein, in step (b), the filter assembly is removed from the additive manufacturing apparatus in a sealed state. 17. A method of changing a particle filter element located within a filter housing mounted on an additive manufacturing apparatus, the additive manufacturing apparatus comprising: a build chamber, a module for providing a focused energy beam for consolidating layer-by-layer powder material in the build chamber to build an article, a gas flow circuit for passing a flow of gas through the build chamber during the manufacturing process, and first and second filter assemblies, each of the first and second filter assemblies comprising: a filter housing having a gas inlet and a gas outlet, and the particle filter element located within the filter housing between the gas inlet and the gas outlet and configured to filter at least one of volatile and explosive powder from the gas of the gas flow circuit, wherein, the first and second filter assemblies are arranged in parallel in the gas flow circuit of the apparatus, the method comprising: for one of the first and second filter assemblies, providing a neutralised particle filter element by trapping the at least one of volatile and explosive powder held on the filter element to neutralise the at least one of volatile and explosive powder, and removing the neutralised particle filter element from the filter housing during operation of the additive manufacturing apparatus, wherein during removal of the neutralised filter element, the other of the first and second filter assemblies is used to filter the at least one of volatile and explosive powder from the gas of the gas flow circuit. 18. A method according to claim 17 , comprising entrapping the at least one of volatile and explosive powder held on the filter element by flooding the filter housing before removal of the neutralised filter element from the filter housing. 19. A method according to claim 17 , further comprising removing