An additive manufacturing machine is provided. The additive manufacturing machine includes a build unit including a powder dispenser assembly defining a powder reservoir that receives additive powder; a dosing rate measurement device in communication with the powder dispenser assembly, wherein the dosing rate measurement device measures a dosing rate of the additive powder in-situ; and a controllable device operably coupled to the build unit and including one or more processors configured to execute a program to cause the controllable device to adjust the dosing rate of the additive powder based on the dosing rate measured by the dosing rate measurement device.

An additive manufacturing machine is provided. The additive manufacturing machine includes a build unit including a powder dispenser assembly defining a powder reservoir that receives additive powder; a dosing rate measurement device in communication with the powder dispenser assembly, wherein the dosing rate measurement device measures a dosing rate of the additive powder in-situ; and a controllable device operably coupled to the build unit and including one or more processors configured to execute a program to cause the controllable device to adjust the dosing rate of the additive powder based on the dosing rate measured by the dosing rate measurement device.

An additive manufacturing machine having a build vessel defining a work surface is provided. The additive manufacturing machine includes a build unit including a powder dispenser assembly defining a powder reservoir that receives additive powder; a positioning system adapted to provide independent movement of at least one of the build unit and the work surface with respect to one another in at least two dimensions; and a dosing rate measurement device in communication with the powder dispenser assembly, wherein the dosing rate measurement device measures a dosing rate of the additive powder in-situ.

An additive manufacturing machine having a build vessel defining a work surface is provided. The additive manufacturing machine includes a build unit including a powder dispenser assembly defining a powder reservoir that receives additive powder; a positioning system adapted to provide independent movement of at least one of the build unit and the work surface with respect to one another in at least two dimensions; and a dosing rate measurement device in communication with the powder dispenser assembly, wherein the dosing rate measurement device measures a dosing rate of the additive powder in-situ.

A printing apparatus for printing a three-dimensional object comprising an operative surface, at least one supply hopper for depositing layers of powder onto the operative surface and an energy source for emitting at least one energy beam onto the layers of powder. The supply hopper and energy source are configured such that when a topmost layer of powder is being deposited onto an underlying layer of powder on the operative surface, the direction travelled by the supply hopper when depositing the topmost layer is different to the direction travelled by the supply hopper when depositing the underlying layer, and at least one energy beam is emitted onto the topmost layer and at least one further energy beam is emitted onto the underlying layer, simultaneously, to melt, fuse or sinter the topmost and underlying layers.

A printing apparatus for printing a three-dimensional object comprising an operative surface, at least one supply hopper for depositing layers of powder onto the operative surface and an energy source for emitting at least one energy beam onto the layers of powder. The supply hopper and energy source are configured such that when a topmost layer of powder is being deposited onto an underlying layer of powder on the operative surface, the direction travelled by the supply hopper when depositing the topmost layer is different to the direction travelled by the supply hopper when depositing the underlying layer, and at least one energy beam is emitted onto the topmost layer and at least one further energy beam is emitted onto the underlying layer, simultaneously, to melt, fuse or sinter the topmost and underlying layers.

A method for the additive construction of a structure for a component includes the following steps: providing a prefabricated component for the component on a building board, wherein the component has a separating plane, providing a powder bed from a base material for the structure, moving the building board closer to a coating device, aligning a processing surface and the separating plane of the component for preventing adhesion between the component and the coating device, and optically measuring a surface of the powder bed.

A method for the additive construction of a structure for a component includes the following steps: providing a prefabricated component for the component on a building board, wherein the component has a separating plane, providing a powder bed from a base material for the structure, moving the building board closer to a coating device, aligning a processing surface and the separating plane of the component for preventing adhesion between the component and the coating device, and optically measuring a surface of the powder bed.

At least one parameter of a material is determined with a pressing tool usable for producing a green compact and a pressing tool for producing at least one green compact. The pressing tool has at least one planar surface which is formed at least in part by a die which, starting from the surface, extends along an axial direction and, on the surface, has a cavity which extends from the surface along the axial direction and has an inner circumferential surface; wherein the cavity forms a receptacle for a powdery material which can be pressed in the cavity by at least one punch plunging into the cavity along the axial direction to form the green compact.

A powder bed machine including a distribution device, which is configured to be charged with process material. The powder bed machine has a residual powder tank within the manufacturing process, wherein the residual powder tank holds a surplus of the process material. The powder bed machine is positioned on feet and weighing cells are located in the feet.