http://rdf.ncbi.nlm.nih.gov/pubchem/patent/DE-102015113056-B4

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publicationDate 2018-07-26-04:00^^<http://www.w3.org/2001/XMLSchema#date>
publicationNumber DE-102015113056-B4
titleOfInvention Method for the contactless cooling of steel sheets and device therefor
abstract A method for producing a hardened steel component, wherein a blank is punched out and the blanked blanket is heated either completely or partially to a temperature ≥Ac 3 to perform the austenite formation, and then the completely or partially heated board is transferred to a forming tool in the forming tool is thermoformed and cooled in the mold at a rate greater than the critical cure speed and thereby hardened, or cold worked, and the reshaped board is heated, wholly or partially, to a temperature> Ac 3 to perform austenite formation, and Subsequently, the completely or partially heated and deformed circuit board is transferred to a hardening tool, is hardened in the hardening tool at a rate that is above the critical hardness rate, the umwa um um delay-hardened, that at a forming temperature ranging from 450 ° C to 700 ° C quench hardening takes place by transformation of the austenite into martensite, after which, after heating and before forming, active cooling takes place, in which the board or Parts of the board or the formed board or portions thereof is cooled at a cooling rate> 15K / s, characterized in that for homogeneous, contactless cooling of the hot circuit boards or components, a cooling device (1) and an object with a hot surface are moved relative to each other wherein the cooling device (1) has at least two parallel, spaced cooling fins (2) or cooling columns (15) has, wherein the cooling blades (2) or cooling columns (15) to be cooled board or component to be cooled down a nozzle edge (6, 17) with nozzles (10), wherein a cooling fluid is directed by the nozzles (10) on the surface of the board or the component and the cooling fluid flows into the space between the swords (2) or cooling columns (15) after contacting the hot surface, wherein a surface to be cooled by means of robots or linear drives is moved in the X, Y or Z plane, wherein any specification of the movement trajectories and speeds of the surfaces to be cooled is possible, wherein the movement is an oscillation about a rest position in the X and Y plane and another oscillation is optionally possible in the Z plane.
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