Method and apparatus for producing a three-dimensional workpiece with thermal focus shift compensation

1 . A method for producing a three-dimensional work piece, the method comprising the steps of applying a raw material powder onto a carrier, selectively irradiating electromagnetic or particle radiation onto the raw material powder applied onto the carrier by means of an irradiation unit in order to produce the work piece from said raw material powder on the carrier by a generative layer construction method, the irradiation unit comprising a radiation source and a plurality of optical elements, wherein operation of the irradiation unit is controlled in dependence on an operating temperature dependent change of at least one optical property of at least one optical element of the irradiation unit. 2 . The method according to claim 1 , wherein operation of the irradiation unit is controlled so as to compensate for the operating temperature dependent change of the at least one optical property of the at least one optical element of the irradiation unit. 3 . The method according to claim 1 , wherein operation of the irradiation unit is controlled in dependence on an operating temperature dependent shift of a focus position of an radiation beam emitted by the radiation source of the irradiation unit in at least one spatial direction. 4 . The method according to claim 3 , wherein operation of the irradiation unit is controlled so as to compensate for the operating temperature dependent shift of the focus position of the radiation beam emitted by the radiation source of the irradiation unit in at least one spatial direction. 5 . The method according to claim 1 , wherein operation of the irradiation unit is controlled in dependence on a correction function indicating a shift of the focus position of the radiation beam emitted by the radiation source of the irradiation unit in one spatial direction in dependence on an output power of the radiation beam emitted by the radiation source of the irradiation unit. 6 . The method according to claim 5 , wherein the correction function is the result of a regression analysis performed on data obtained via a calibration measurement of the shift of the focus position of the radiation beam emitted by the radiation source of the irradiation unit in one spatial direction in dependence on the output power of the radiation beam emitted by the radiation source of the irradiation unit. 7 . The method according to claim 6 , wherein the calibration measurement is performed according to a caustic measurement method and/or a pyrometric measurement method. 8 . An apparatus for producing a three-dimensional work piece, the apparatus comprising: a raw material powder application device adapted to apply a raw material powder onto a carrier, an irradiation unit adapted to selectively irradiate electromagnetic or particle radiation onto the raw material powder applied onto the carrier in order to produce the work piece from said raw material powder on the carrier by a generative layer construction method, the irradiation unit comprising a radiation source and a plurality of optical elements, and a control unit adapted to control operation of the irradiation unit in dependence on an operating temperature dependent change of at least one optical property of at least one optical element of the irradiation unit. 9 . The apparatus according to claim 1 , wherein the control unit is adapted to control operation of the irradiation unit so as to compensate for the operating temperature dependent change of the at least one optical property of the at least one optical element of the irradiation unit. 10 . The apparatus according to claim 8 , wherein the control unit is adapted to control operation of the irradiation unit in dependence on an operating temperature dependent shift of a focus position of an radiation beam emitted by the radiation source of the irradiation unit in at least one spatial direction. 11 . The apparatus according to claim 10 , wherein the control unit is adapted to control operation of the irradiation unit so as to compensate for the operating temperature dependent shift of the focus position of the radiation beam emitted by the radiation source of the irradiation unit in at least one spatial direction. 12 . The apparatus according to claim 8 , wherein the control unit is adapted to control operation of the irradiation unit in dependence on a correction function indicating a shift of the focus position of the radiation beam emitted by the radiation source of the irradiation unit in one spatial direction in dependence on an output power of the radiation beam emitted by the radiation source of the irradiation unit. 13 . The apparatus according to claim 12 , wherein the correction function is the result of a regression analysis performed on data obtained via a calibration measurement of the shift of the focus position of the radiation beam emitted by the radiation source of the irradiation unit in one spatial direction in dependence on the output power of the radiation beam emitted by the radiation source of the irradiation unit. 14 . The apparatus according to claim 13 , further comprising a caustic measurement device adapted to perform the calibration measurement according to a caustic measurement method and/or a pyrometric detection device adapted to perform the calibration measurement according to a pyrometric measurement method. 15 . A method for manufacturing an apparatus for producing a three-dimensional work piece, the method comprising: providing an irradiation unit adapted to selectively irradiate electromagnetic or particle radiation onto a raw material powder applied onto a carrier in order to produce the work piece from said raw material powder on the carrier by a generative layer construction method, the irradiation unit comprising a radiation source and at least one optical element, determining an operating temperature dependent shift of a focus position of an radiation beam emitted by the radiation source of the irradiation unit, and selecting the optical element of the irradiation unit for final installation in the apparatus in ease the temperature dependent shift of the focus position of the radiation beam emitted by the radiation source of the irradiation unit in at least one spatial direction is below a threshold value.