DE714058C - Process for the production of rough precious metal surfaces - Google Patents

Description

Process for producing rough precious metal surfaces For some areas of application the precious metals, preferably platinum, e.g. B. for catalytic purposes, it is it is desirable that the metal have rough surfaces. You can do such surfaces on mechanical. Establish paths, for example by blasting. Disadvantageous is the loss of metal, the difficulty, a uniformly roughened layer of a certain thickness, and above all the risk of using it especially thin sheet metal to damage the surface, so that it is unusable. It is similar with the chemical treatment with abrasive agents. One can also, e.g. B. with platinum, .electrochemically a black layer on the smooth surface raise. But it is difficult to produce layers with good adhesive strength, and the mechanical resistance is usually insufficient.

It has now been found that rough precious metal surfaces can be made more uniform Preserves depth and structure and of great mechanical resistance when the precious metal sheet with top layers of a. other metal or alloy provides a diffusion layer in the absence of air by alternating annealing and rolling generated between the precious metal and the top layer and then detaching the top layer. The desired final thickness of the sheet is brought about by rolling. To detach Acids that practically do not attack the precious metal are used for the top layer. A roughened precious metal surface then remains. The thickness of the diffusion layer can be achieved by appropriate selection of the metal or: the alloy for the top layer and the annealing temperature, which is below the melting point - of the overlay metal lie -soll, affect.

For the: Cover layer you can use nickel, copper and other precious metals, in the case of the platinum metals as base metals, for example silver, or the equivalent Use alloys. The annealing temperature to be used Nature and duration depends on the metals processed in each case. In the case of processing of platinum with copper as the top layer, the two layers are heated to about 8_5o- together under the press or roller. The following anneals become appropriate between 4oo and; oo ° made. At the lower temperatures, the glow time is several hours, at higher temperatures it is correspondingly shorter.

In some cases it is useful to place between the precious metal and the top layer Metals or alloys with a lower melting point than -to arrange the top layer. Depending on the type of intermediate layer and its thickness and the rolling temperature used diffusion layers of different thicknesses can be obtained.

The process can be used for the production of sheet metal. Wires and Apply pipes. If you only remove the top layer on one side, you get Finite precious metal clad objects with roughened precious metal surface c #.

Although it is already known, foils made of a two-material alloy like this to heat that the one alloy component evaporates and a porous one for liquids and gases easily permeable metal foil remains. According to your present procedure but only a very thin diffusion layer in relation to the thickness of the precious metal base generated between precious metal and cover metal, see -) that after the removal of the base metal Metal a dense. Precious metal sheet impermeable to gases and liquids remains behind. in which only the surface in a relatively very thin layer is loosened up.

Claims (2)

PATENT CLAIMS: i. Process for generating rope 1, delmetalloher surfaces, characterized in that the noble metal with cover layers from another Metal or an alloy provides alternating annealing with air circulation and rolling, a diffusion layer is produced between the noble metal and the cover layer and then removes the top layer. 2. The method according to claim i, characterized in that that between the noble metal and the top layer metals or alloys of lower Melting point as the top layer arranges.