Abstract: Method for producing an object by additive manufacturing including the steps of determining, via a first determining unit, a characteristic of a beam of electromagnetic radiation at a first position of the beam and determining, via a second determining unit, the characteristic of the beam of electromagnetic radiation at a second position, and calibrating, via a control unit, the second determining unit according to the characteristic of the beam, determined by the first determining unit. An apparatus for manufacturing an object by additive manufacturing.

Abstract: A method for calibrating an apparatus for producing an object by additive manufacturing, the apparatus including a process chamber for receiving a bath of material to be solidified by exposure to electromagnetic radiation, a support for positioning the object in relation to the surface level of the bath of material, and a solidifying device for solidifying a selective layer-part of the material on the surface level by electromagnetic radiation, the method including controlling the solidifying device to make a first test mark at a first delay setting, controlling the solidifying device to make a second test mark at a second delay setting different from the first delay setting, and determining a delay setting based on at least the first test mark and the second test mark.

Abstract: A method for calibrating an apparatus for producing an object by means of additive manufacturing including a process chamber for receiving a bath of material which can be solidified by exposure to electromagnetic radiation, a support for positioning the object in relation to the surface level of the bath of material, and a solidifying device for solidifying a selective layer-part of the material on the surface level by means of electromagnetic radiation. A method including providing, on or near the support, a calibration marker that faces the solidifying device, and providing a calibration system with an imaging unit that can be directed to the support.

Abstract: The invention relates to an apparatus for producing an object by means of additive manufacturing, comprising a process chamber for receiving a bath of material which can be solidified by exposure to electromagnetic radiation; a support for positioning the object in relation to the surface level of the bath of material; and a solidifying device for solidifying a selective layer-part of the material on the surface level by means of electromagnetic radiation. Furthermore optical control device is provided with a focus unit in an optical pathway of the electromagnetic radiation of the solidifying device, and arranged for controlling at least the focus of the electromagnetic radiation emitted by the solidifying device on the surface level. According to the invention, the optical control device comprises a sensor element arranged for detecting a measure for the accuracy of the focus of the electromagnetic radiation and a focus correction lens element that is arranged to be movable.

Abstract: An apparatus for producing an object by additive manufacturing including a process chamber for receiving a bath of powdered material, a support for positioning the object relative to a surface level of the bath of powdered material, a solidifying device for emitting a beam of electromagnetic radiation to solidify a selective part of a layer of the powdered material, and a control device for controlling an energy density of the electromagnetic radiation, during solidification of the selective part of the layer, according to a position of the beam of electromagnetic radiation at the surface level. A method for producing an objective by additive manufacturing.

Abstract: Method for producing an object by additive manufacturing including the steps of determining, via a first determining unit, a characteristic of a beam of electromagnetic radiation at a first position of the beam and determining, via a second determining unit, the characteristic of the beam of electromagnetic radiation at a second position, and calibrating, via a control unit, the second determining unit according to the characteristic of the beam, determined by the first determining unit. An apparatus for manufacturing an object by additive manufacturing.

Abstract: The invention relates to a method for calibrating an apparatus for producing an object by means of additive manufacturing. The apparatus comprises a process chamber, as well as a support for positioning the object in relation to a surface level of a bath of material to be solidified. A solidifying device is arranged for emitting a beam of radiation on the surface level for solidifying a selective part of said material. The solidifying device comprises a focus member for adjusting a focus setting. The method according to the invention comprises the steps of controlling the solidifying device for making test patterns at different focus settings. A calibration system with a sensor unit is used for determining characteristics of test patterns, and a calibrated focus setting is determined based on the characteristics.

Abstract: A method for calibrating an apparatus for producing an object by additive manufacturing, the apparatus including a process chamber for receiving a bath of material to be solidified by exposure to electromagnetic radiation, a support for positioning the object in relation to the surface level of the bath of material, and a solidifying device for solidifying a selective layer-part of the material on the surface level by electromagnetic radiation, the method including controlling the solidifying device to make a first test mark at a first delay setting, controlling the solidifying device to make a second test mark at a second delay setting different from the first delay setting, and determining a delay setting based on at least the first test mark and the second test mark.

Abstract: The invention relates to an apparatus for producing an object by means of additive manufacturing, comprising a process chamber for receiving a bath of material which can be solidified by exposure to electromagnetic radiation; a support for positioning the object in relation to the surface level of the bath of material; and a solidifying device for solidifying a selective layer-part of the material on the surface level by means of electromagnetic radiation. Furthermore optical control device is provided with a focus unit in an optical pathway of the electromagnetic radiation of the solidifying device, and arranged for controlling at least the focus of the electromagnetic radiation emitted by the solidifying device on the surface level. According to the invention, the optical control device comprises a sensor element arranged for detecting a measure for the accuracy of the focus of the electromagnetic radiation and a focus correction lens element that is arranged to be movable.

Abstract: The invention relates to a method for calibrating an apparatus for producing an object by means of additive manufacturing. The apparatus comprises a process chamber, as well as a support for positioning the object in relation to a surface level of a bath of material to be solidified. A solidifying device is arranged for emitting a beam of radiation on the surface level for solidifying a selective part of said material. The solidifying device comprises a focus member for adjusting a focus setting. The method according to the invention comprises the steps of controlling the solidifying device for making test patterns at different focus settings. A calibration system with a sensor unit is used for determining characteristics of test patterns, and a calibrated focus setting is determined based on the characteristics.

Abstract: A method for calibrating an apparatus for producing an object by means of additive manufacturing including a process chamber for receiving a bath of material which can be solidified by exposure to electromagnetic radiation, a support for positioning the object in relation to the surface level of the bath of material, and a solidifying device for solidifying a selective layer-part of the material on the surface level by means of electromagnetic radiation. A method including providing, on or near the support, a calibration marker that faces the solidifying device, and providing a calibration system with an imaging unit that can be directed to the support.

Abstract: A motor includes a stator including a plurality of stator poles arranged in a repetitive arrangement with a first pitch, the stator poles facing a first side of a plane of movement, and a mover including a plurality of mover poles arranged in a repetitive arrangement with a second pitch, the mover poles facing a second, opposite side of the plane of movement. The poles of the stator and/or the mover are provided with a winding to alter a magnetic field in the respective ones of the stator poles and the mover poles in response to an electric current through the respective winding. At least one of the stator and the mover includes a permanent magnet for generating a magnetic field extending from the permanent magnet via at least one respective pole of the stator and the mover to the other one of the stator and the mover and back.

Abstract: A motor includes a stator including a plurality of stator poles arranged in a repetitive arrangement with a first pitch, the stator poles facing a first side of a plane of movement, and a mover including a plurality of mover poles arranged in a repetitive arrangement with a second pitch, the mover poles facing a second, opposite side of the plane of movement. The poles of the stator and/or the mover are provided with a winding to alter a magnetic field in the respective ones of the stator poles and the mover poles in response to an electric current through the respective winding. At least one of the stator and the mover includes a permanent magnet for generating a magnetic field extending from the permanent magnet via at least one respective pole of the stator and the mover to the other one of the stator and the mover and back.