Abstract: A mold body for a pre-pressing tool for pressing three-dimensional preforms made of a fiber-containing material, and a pre-pressing station with a pre-pressing tool with at least one mold body, are described, wherein the mold body includes a deformable material and has a shell which substantially images the geometry of a preform to be pressed, wherein the mold body has at least one support structure made of deformable material which is formed integrally with the shell.

Abstract: The present invention relates to a method for increasing the efficiency of a solar module or a solar collector, wherein the solar module or the solar collector comprises a glass pane on the side that faces toward the sun. The method comprises the steps of applying an aqueous solution of collagen hydrolysate to the glass pane and allowing the aqueous solution to dry.

Abstract: The present disclosure relates to a process for the pretreatment of fibrous material in a production process for producing three-dimensional products, to a pretreatment chamber for the pretreatment of fibrous material, and to a fiber molding plant having at least one pretreatment chamber. By pretreating relatively dry fiber material, the shaping step in a manufacturing process can be significantly improved and the choice of product geometries can be increased.

Abstract: A method for processing planar material webs made of a fiber-containing material is disclosed. The planar material webs are fed as material web portions or endless material web, for the production of three-dimensional products. Before a material web is pressed for shaping, the material web is preformed three-dimensionally by deforming the material web in at least one direction substantially without stretching or compressing.

Abstract: The invention relates to a method (100) for manufacturing molded parts (10) from biodegradable fiber material (11) by means of a fiber molding process in a fiber molding system (20), comprising the following steps of providing (110) a pulp (1) as a liquid solution containing a biodegradable fiber material; contacting (120) a suction tool (2) with the pulp by placing it on or at least partially dipping it into the pulp, wherein the suction tool comprises a suction head (21) with a three-dimensionally shaped suction head suction side (21i), whose shape is adapted to a contour of the subsequent molded part; molding (130) the molded part by sucking the fiber material onto the suction head suction side (21i) by means of negative pressure in the suction tool; pre-pressing (140) the molded part in a pre-pressing station (3) with a pre-pressing pressure (VD) to reduce a proportion of the liquid solution in the molded part; hot-pressing (150) the pre-pressed molding at a hot-pressing pressure (HD) for finishing the mo

Abstract: The invention relates to a portioning container (1) made of biodegradable fiber material (11), to a molded fiber system (100), and to a method (200) for manufacturing such portioning containers (1), comprising a receptacle (2) for holding a consumable (G, G?) and a cover (6) for closing the receptacle to produce a sealed volume (V) within the portioning container (1), wherein at least the receptacle (2), preferably also the cover (6), is manufactured from biodegradable fiber material (11) using a molded fiber system (100) by means of a molded fiber process, from a pulp (7, 7a, 7b) as a liquid solution containing the biodegradable fiber material (11), wherein at least the receptacle (2), preferably also the cover (6), is provided with a barrier layer system (8) which has a barrier effect at least against penetration of moisture, water, aromatic substances, flavoring agents, odorants, and/or non-food-grade substances.

Abstract: The invention relates to a fiber-forming system (100) comprising at least a molding station (20) according to the invention, a preforming station (30) according to the invention and a hot-pressing station (40) according to the invention for producing a formed part (10) from environmentally-friendly-degradable fiber material (11) by means of a fiber-forming process executed in the fiber-forming system (100), wherein the fiber-forming system (100) is designed to enable an automatic change of tools (2, 3, 400, 40u) from the molding station (20), preforming station (30) and or hot-pressing station (40). The invention also relates to such a molding station (20), preforming station (30) and hot-pressing station (40) and a corresponding method (200) for automatically changing tools in the fiber-forming system (100).

Abstract: The present disclosure relates to a molding station (20) for molding (210), a preforming station (30) for preforming (220), a hot-pressing station (40) for final shaping (230) a formed part (10) made of environmentally-friendly-degradable fiber material (11) in a fiber-forming process in a fiber-forming system (100). The fiber-forming system (100) produces the formed part (10) having the above components (20, 30, 40) by means of the method (200) performed in the fiber-forming system (100) as a fiber-forming process.

Abstract: The present disclosure relates to a molding station a mold body for a pre-pressing tool that is utilized for pressing three-dimensional preforms made of a fiber-containing material. The mold body includes a deformable material and is perforated in some portions. In certain instances, the mold body has, with respect to a wall section and a floor section, a greater material thickness in a connection section for the pre-pressing tool.

Abstract: The present disclosure relates to a molding station a mold body for a pre-pressing tool that is utilized for pressing three-dimensional preforms made of a fiber-containing material. The mold body includes a deformable material and is perforated in some portions. In certain instances, the mold body has, with respect to a wall section and a floor section, a greater material thickness in a connection section for the pre-pressing tool. In some instances, the mold body has an integrated connection unit in the connection section for the pre-pressing tool.

Abstract: The present disclosure relates to a molding station a mold body for a pre-pressing tool that is utilized for pressing three-dimensional preforms made of a fiber-containing material. The mold body includes a deformable material and is perforated in some portions.

Abstract: A fiber molding system for manufacturing molded parts made from environmentally friendly, degradable fiber material using a fiber molding process is disclosed. The system includes at least one first pulp reservoir; a suction tool attached to a movement unit, which as a multi-tool comprises a plurality of suction heads, each with a three-dimensionally shaped suction head suction side adapted to a contour of the molded part to be molded, and which is designed to use at least a first partially immersing of the suction tool into the first pulp and sucking the fiber material onto the respective suction head suction sides of the suction heads using negative pressure from the first pulp to form the molded part in the suction heads; an output unit for outputting the final molded part, and a control unit adapted to carry out the method on the fiber molding system.

Abstract: A method for producing three-dimensional molded parts from a fiber-containing material and a fiber processing device are described. In this case, a provision of separated fibers, an arrangement of the separated fibers to form at least one preform, wherein the at least one preform substantially corresponds to the shape of a molded part to be produced, and a pressing of the at least one preform to form a three-dimensional molded part take place. The fiber processing device at least has a feeding device for providing separated fibers; a premolding device, which has at least one premold for forming preforms from fibers fed separately, which corresponds to the final form of the molded part to be produced; a transfer device for transferring preforms provided via the at least one premold and made of fiber-containing material; and a molding device for pressing preformed preforms to form finished three-dimensional molded parts.

Abstract: The present disclosure relates to a cleaning system. The cleaning system may include a support and holding structure for the cleaning unit of at least one molding tool where the at least one molding tool includes at least one interior through which a flow can pass and at least one mold part having a plurality of openings. At least one inlet connection for a (cleaning) inlet line may be provided on the at least one molding tool, via which inlet connection a cleaning fluid can be introduced into at least one interior of the molding tool and can be discharged via the plurality of openings of the mold parts. A closure frame and a closure element may be provided where the closure frame is arranged between the at least one molding tool and the closure element to form a drain space.

Abstract: The present disclosure relates to a weighing system for a manufacturing device for products, comprising at least one electronically evaluable scale, comprising at least one carrier element for positioning at least one workpiece or stack of workpieces, in particular a group of horizontally adjacent workpieces and/or stacks of workpieces, and an evaluation unit connected to the scale for receiving and evaluating detected weighing data, the scale being operable in cooperation with the evaluation unit to detect the total weight and the horizontal weight distribution of at least one workpiece or stack of workpieces deposited on the carrier element. Further, the present disclosure includes a manufacturing system and an associated method.

Abstract: The disclosure relates to the field of medicine, in particular to the field of veterinary medicine. The disclosure relates to a pharmaceutical (medicament) formulation of glucocorticoids, especially ciclesonide or a pharmaceutically acceptable derivative thereof.

Abstract: The disclosure relates to the field of medicine, in particular to the field of veterinary medicine. The disclosure relates to a pharmaceutical (medicament) formulation of glucocorticoids, especially ciclesonide or a pharmaceutically acceptable derivative thereof.

Abstract: The present disclosure relates to a molding station (20) for molding (210), a preforming station (30) for preforming (220), a hot-pressing station (40) for final shaping (230) a formed part (10) made of environmentally-friendly-degradable fiber material (11) in a fiber-forming process in a fiber-forming system (100). The fiber-forming system (100) produces the formed part (10) having the above components (20, 30, 40) by means of the method (200) performed in the fiber-forming system (100) as a fiber-forming process.

Abstract: Methods and apparatus for assembling dispensing devices and/or for dispensing a medicament include a sealing element fixed in a receiving space of the dispensing device with a specific assembly parameter. A plurality of sealing elements is produced in batches, and all sealing elements of a batch are fixed with the same assembly parameter.

Abstract: The invention concerns the area of ceramics an relates to a method for separating impurities from silicon carbide, said method being applicable to SiC powders from grinding sludges, and to temperature-treated and purified silicon carbide powder. The aim of the invention is to provide a method with which different impurities are substantially completely removed using a simple and economical process. This is achieved by a method in which pulverulent SiC waste products that have a mass percent of SiC of at least 50% and an average grain size d50 ranging from 0.5 to 1000 ?m and have been subjected to a temperature treatment and cooled are mechanically treated and physically separated. The physically separated SiC powder is then divided into two fractions, one of which has a mass of impurities that is greater than the mass of impurities in the other fraction at least by a factor of 2.