DED0001215MA - - Google Patents

Claims (1)

D 1215Ib1491 The invention relates to the manufacture of metal powders by atomizing metals or metal alloys, preferably iron and iron alloys. Such procedures were made hitherto generally carried out in such a way that the melt to be divided is in the form of a closed The jet is guided through an annular nozzle from which the atomizing agent (gas, and / or Vapors) concentrically at great speed ίο is blown onto the melt jet. Here is blow the molten metal into fine droplets which, after solidification, form powder particles. When carrying out this process, the point of impact of the atomizing agent on the Melt stream often creates vortices and discontinuities, which have a disruptive effect on the process. Through the occurrence of eddies and the like in the atomization zone are often counteracted by metal droplets The outlet opening of the mouthpiece of the atomizing nozzle is thrown back and sometimes cause by .Apply a more or less extensive closure of the nozzle outlet opening, whereby caused undesirable and uncontrollable distractions of the atomizing agent will. Such operations make the set working conditions undesirable Way changed, whereby the uniformity of the resulting powder is disruptive. The invention relates to a method for producing fine powders from metallic melts, in which the melt is guided through a ring nozzle in the form of a freely falling jet, through which the atomizing agent is blown conically onto the melt jet. Here is the atomization zone, in which the atomizing agent impinges on the metal jet, thereby from moved away from the nozzle mouthpiece so that the inner edge of the nozzle mouthpiece is out of the oblique direction is bent downwards, i.e. parallel to the direction of fall of the metal beam. In this way According to the invention, the atomizing agent succeeds in practically without impairing its speed and to give such a diversion without diminishing its inherent energy that atomization at such a distance from the nozzle mouthpiece begins a back fling caused by vortex formation of melt particles against the nozzle mouthpiece is prevented. In the drawing, a device for performing the method is shown, for example. It means A the vessel from which the melt in the form of a freely falling jet B from flowing out. The jet B passes through the inner opening of the annular nozzle C, the inner wall D of which is bent in part D ' vertically downwards, that is in the direction of the freely falling melt jet. This deflects the stream of atomizing agent conically striking the melt jet B so far that the actual atomizing zone only develops at some distance from the opening of the nozzle mouthpiece and metal droplets thrown back by vortex formation no longer reach the nozzle mouthpiece. In the exemplary embodiment, the inner edge and the outer edge of the nozzle end at the same point Height. The inner edge can, however, also end slightly above or below the outer edge. ^Λ PATENT CLAIM: Process for the production of fine powders from metallic melts, in particular iron and iron alloys, in which the atomizing agent (gases and / or vapors) is concentric, e.g. B. is blown through an annular nozzle at high speed on the melt jet, characterized in that the z. B. directly from the bottom opening ^{1 of} the melting vessel or through a short nozzle emerging melt jet is guided in free fall through an annular nozzle, through which the atomizing agent is blown conically onto the melt jet and that by turning the inner edge of the nozzle mouthpiece from the oblique direction downward vortices and this prevents metal particles from being thrown back onto the outlet opening of the ring nozzle. 1 sheet of drawings