TH12470B - Nickel powder and process for its preparation - Google Patents

Abstract

DC60 (03/11/43) Nickel powder with composite oxide layer. Containing lanthanum and nickel and that Chromium can be chosen to be present on at least part of its surface. Nickel powder is produced by a process that consists of a process of Making a solution containing At least one thermally degradable nickel compound And at least one substance Assemble Lanthanum That can be decomposed by heat And may choose to have at least one substance The thermally decomposed chromium is formed into a fine stop. And heating These stops at temperatures above the decomposition temperature of these compounds. To prepare the nickel powder and at the same time to bind to a composite oxide layer containing lanthanum and nickel, and when the presence of chromium oxide in close proximity to the surface of the nickel powder, This nickel powder is suitable. For use in Conductive semi-solid substances That was burned together with a ceramic green disc that was not burned For multilayer or similar compositions, because the lumping starting of this powder is significantly damped Performance around the starting temperature of the green ceramic disc. By the way, this prevents Problems that are caused due to excessive clotting Nickel powder with composite oxide layer Containing lanthanum and nickel and that Chromium can be chosen to be present on at least part of its surface. Nickel powder is produced by a process that consists of a process of Making a solution containing At least one thermally degradable nickel compound And at least one substance Assemble Lanthanum That can be decomposed by heat And may choose to have at least one substance The thermally decomposed chromium is formed into a fine stop. And heating These stops at temperatures above the decomposition temperature of these compounds. To prepare the nickel powder and at the same time to bind to a composite oxide layer containing lanthanum and nickel, and when the presence of chromium oxide in close proximity to the surface of the nickel powder, This nickel powder is suitable. For use in Conductive semi-solid substances That was burned together with a ceramic green disc that was not burned For multilayer or similar compositions, because the lumping starting of this powder is significantly damped Performance around the starting temperature of the green ceramic plate. By the way, this prevents Problems that are caused due to excessive clotting

Claims (7)

1.Nickle powder with a composite oxide layer containing lanthanum and nickle on At least part of its surface 2. Nickle powder with composite oxide layer containing lanthanum and nickle. And with chromium oxide On at least part of its surface 3. The process for the preparation of nickle powders according to claim 1 consists of a solution dilution procedure containing at least one decomposition nickle compound. And at least one lanthanum compound that is thermally decomposed becomes A fine drop And heat them at a temperature above the decomposition temperature of the substance Assembly Nickle And lanthanum compounds to prepare nickle powder And at the same time to The accumulation island is a composite oxide composed of lanthanum. And nickle in close proximity to The surface of the Nickle powder. 4. The process for the preparation of nickel powder according to claim 2 consists of a process of diluting a solution containing at least one disintegrated nickel compound. And at least one thermally degradable lanthanum and at least one thermally degradable chromium compound into fine droplets. And heating these droplets at above the decomposition temperature of the nickel compound. Lanthanium and chromium compounds to prepare nickle powders And at the same time To bind to a composite oxide layer containing lanthanum And nickle and oxide of Chromium in the vicinity of the surface of the nickle powder. 5.Semi-solid semi-liquid that conducts electricity It consists of nickel powders selected from a group containing nickel powder with a composite oxide layer containing lanthanum and nickel on at least part of its surface. And a nickel powder containing an oxide layer containing lanthanum and nickel and chromium oxides. On at least part of its surface 6.Multilayer ceramic electronic elements Consisting of a conductive layer that Was made to happen using Conductive semi-solid substances According to claim 5 7. A multi-layer ceramic substrate consisting of an electrically conductive layer is formed using a conductive semisolid. According to claim 5