Abstract: A method for manufacturing a radiation detector module including a sensor component and a heat dissipation component includes arranging a reactive multilayer system between the sensor component and the heat dissipation component. The sensor component and the heat dissipation component are brought together. The reactive multilayer system is activated for creating an RMS connection between the sensor component and the heat dissipation component. A radiation detector module manufactured with this method, as well as a radiation detector with such radiation detector modules and an imaging system, and also a replacement part for a radiation detector module are also provided.

Abstract: Described are materials for a shoe upper, in particular for soccer shoes, with a particularly low weight. The material includes an inner polyurethane layer, an outer polyurethane layer, and a textile reinforcing layer. The textile reinforcing layer is arranged between the inner polyurethane layer and the outer polyurethane layer. The inner polyurethane layer and the outer polyurethane layer comprise thermoset polyurethane. The textile reinforcing layer comprises apertures through which the inner polyurethane layer and the outer polyurethane layer are connected to each other.

Abstract: The invention concerns a method of producing an article of footwear comprising: providing an upper; providing a mold and opening the mold; inserting the upper into the open mold; closing the mold; and injecting a pressurized molten resin, wherein, after the injecting, there is a gap filled with the resin between a side wall of the mold and an outer surface of at least a first portion of the upper, wherein the gap is essentially zero at a contacting point, wherein the gap increases gradually from the contacting point in at least a first region of the mold.

Abstract: The invention concerns a method of producing an article of footwear comprising: providing an upper; providing a mold and opening the mold; inserting the upper into the open mold; closing the mold; and injecting a pressurized molten resin, wherein, after the injecting, there is a gap filled with the resin between a side wall of the mold and an outer surface of at least a first portion of the upper, wherein the gap is essentially zero at a contacting point, wherein the gap increases gradually from the contacting point in at least a first region of the mold.

Abstract: A method for manufacturing a shoe can include a) lasting an upper; b) providing an open sole casting mold; c) foaming sole material outside the sole casting mold; d) injecting the foamed sole material into the sole casting mold; and e) bringing the lasted upper into contact with the injected sole material.

Abstract: A method is for producing a grid-like beam collimator. In an embodiment, the method includes printing a suspension, including a binder and metal particles, in several stacked layers to build a layer stack with a grid structure including a number of crossing webs, and removing the binder from the layer stack. In an embodiment, the printing includes applying a curable liquid stiffening material at least on a surface of the grid structure, and curing the curable liquid stiffening material after the applying.

Abstract: An X-ray detector, including a stacking arrangement, includes an evaluation unit and a carrier unit. The evaluation unit and the carrier unit are electrically conductively connected via a plurality of connecting elements. An interspace is formed between the evaluation unit, the carrier unit and the plurality of connecting elements. A protective element is formed on side faces of the carrier unit, arranged essentially parallel to a stacking direction of the stacking arrangement. The protective element is formed in at least one section of the side faces along the entire outer circumference and along the edges of the side faces, facing the evaluation unit.

Abstract: A radiation detector includes an intermediate layer, which is arranged between a detection layer with a number of detection elements and a number of readout units. In an example embodiment of this arrangement, the intermediate layer has a plurality of electrically-conductive connections between the detection elements and the readout units. An example embodiment further specifies a medical imaging system, as well as a method of using the heating apparatus.

Abstract: Described are materials for a shoe upper, in particular for soccer shoes, with a particularly low weight. The material includes an inner polyurethane layer, an outer polyurethane layer, and a textile reinforcing layer. The textile reinforcing layer is arranged between the inner polyurethane layer and the outer polyurethane layer. The inner polyurethane layer and the outer polyurethane layer comprise thermoset polyurethane. The textile reinforcing layer comprises apertures through which the inner polyurethane layer and the outer polyurethane layer are connected to each other.

Abstract: A counting x-ray detector includes a converter element, a rewiring unit and an evaluation unit including pixel electrodes. In an embodiment, the converter element includes a first electrode on a surface facing away from the evaluation unit and a pixelated second electrode having a plurality of electrode elements on a surface facing toward the evaluation unit. The rewiring unit is on a surface of the converter element facing toward the evaluation unit. First contacts of electrically conductive connections between the electrode elements and the pixel electrodes are provided on a surface of the rewiring unit and include a first areal distribution; and second such contacts are provided on a surface of the rewiring unit, including a relatively smaller second areal distribution. An areal extent of the evaluation unit is relatively smaller than an areal extent of the converter element.

Abstract: Described are materials for a shoe upper, in particular for soccer shoes, with a particularly low weight. The material includes an inner polyurethane layer, an outer polyurethane layer, and a textile reinforcing layer. The textile reinforcing layer is arranged between the inner polyurethane layer and the outer polyurethane layer. The inner polyurethane layer and the outer polyurethane layer comprise thermoset polyurethane. The textile reinforcing layer comprises apertures through which the inner polyurethane layer and the outer polyurethane layer are connected to each other.

Abstract: A radiation detector includes an intermediate layer, which is arranged between a detection layer with a number of detection elements and a number of readout units. In an example embodiment of this arrangement, the intermediate layer has a plurality of electrically-conductive connections between the detection elements and the readout units. An example embodiment further specifies a medical imaging system, as well as a method of using the heating apparatus.

Abstract: The invention concerns a method of producing an article of footwear comprising: providing an upper; providing a mold and opening the mold; inserting the upper into the open mold; closing the mold; and injecting a pressurized molten resin, wherein, after the injecting, there is a gap filled with the resin between a side wall of the mold and an outer surface of at least a first portion of the upper, wherein the gap is essentially zero at a contacting point, wherein the gap increases gradually from the contacting point in at least a first region of the mold.

Abstract: A method is for producing a grid-like beam collimator. In an embodiment, the method includes printing a suspension, including a binder and metal particles, in several stacked layers to build a layer stack with a grid structure including a number of crossing webs, and including removal of the binder from the layer stack. In an embodiment, the printing includes applying a curable liquid stiffening material at least on a surface of the grid structure, and curing the liquid stiffening material after the applying.

Abstract: The present invention relates to a shoe upper, in particular an upper knitted on a circular knitting machine, including an elongated hollow knit structure, including: a first zone including a first predetermined property; a second zone including a second predetermined property; wherein the elongated hollow knit structure includes less than ten distinct ply types of yarn including less than five distinct materials.

Abstract: An X-ray detector, including a stacking arrangement, includes an evaluation unit and a carrier unit. The evaluation unit and the carrier unit are electrically conductively connected via a plurality of connecting elements. An interspace is formed between the evaluation unit, the carrier unit and the plurality of connecting elements. A protective element is formed on side faces of the carrier unit, arranged essentially parallel to a stacking direction of the stacking arrangement. The protective element is formed in at least one section of the side faces along the entire outer circumference and along the edges of the side faces, facing the evaluation unit.

Abstract: An X-ray detector includes at least one converter element, an intermediate unit and a plurality of evaluation units assigned to the at least one converter element. In an embodiment, the plurality of evaluation units are arranged in an evaluation level. Further, the at least one converter element, the intermediate unit and the evaluation level are arranged in a stack arrangement. The at least one converter element and the plurality of evaluation units are connected in an electrically-conducting manner via electrically-conducting connections.

Abstract: A sensor board for a detector module is disclosed. It includes, in a stack construction, at least one reader unit and a sensor layer arranged spaced from the reader unit in the direction of the stack. A gap formed by the spacing between the sensor layer and the reader unit is filled with a cured filling material such that at least one edge region of the sensor layer is free of the filling material. Furthermore, a method is disclosed for manufacturing a corresponding sensor board, and a detector module is disclosed for an X-ray detector having a number of sensor boards which are arranged to be mutually adjacent on a module carrier.

Abstract: A counting x-ray detector includes a converter element, a rewiring unit and an evaluation unit including pixel electrodes. In an embodiment, the converter element includes a first electrode on a surface facing away from the evaluation unit and a pixelated second electrode having a plurality of electrode elements on a surface facing toward the evaluation unit. The rewiring unit is on a surface of the converter element facing toward the evaluation unit. First contacts of electrically conductive connections between the electrode elements and the pixel electrodes are provided on a surface of the rewiring unit and include a first areal distribution; and second such contacts are provided on a surface of the rewiring unit, including a relatively smaller second areal distribution. An areal extent of the evaluation unit is relatively smaller than an areal extent of the converter element.

Abstract: A radiation detector includes an intermediate layer, which is arranged between a detection layer with a number of detection elements and a number of readout units. In an example embodiment of this arrangement, the intermediate layer has a plurality of electrically-conductive connections between the detection elements and the readout units. An example embodiment further specifies a medical imaging system, as well as a method of using the heating apparatus.