Methods For Producing and Using a Textile Machine Tool Part

What is claimed is: 1 . A method for producing a textile machine tool part, the method comprising: producing a tool core ( 16 ) from a core material; creating a microstructure ( 19 ) in at least one section of a core surface ( 28 ) of the tool core ( 16 ), wherein the microstructure ( 19 ) of the core surface ( 18 ) has depressions and elevations that are connected to one another, wherein the depressions are depressed in a concave manner relative to a reference plane, while the elevations are raised in a convex manner relative to the reference plane, wherein a diameter of individual ones of the depressions and/or elevations is at most 60 μm and wherein a distance between a maximum depth of individual ones of the depressions and a maximum height of immediately adjacent elevations is at least 10 μm and at most 60 μm; and coating at least part of the core surface ( 18 ) having the microstructure ( 19 ) with a wear-resistant coating ( 17 ) that has a layer thickness (d) of a maximum of 20 μm such that the wear-resistant coating ( 17 ), due to the microstructure ( 19 ) of the core surface ( 18 ), also has a microstructure ( 22 ). 2 . The method according to claim 1 , wherein creating the microstructure ( 19 ) in the at least one section of the core surface ( 18 ) comprises using an electrochemical etching process. 3 . The method according to claim 1 , wherein coating the at least part of the core surface ( 18 ) having the microstructure ( 19 ) comprises applying the wear-resistant coating ( 17 ) immediately after the microstructure ( 19 ) of the core surface ( 18 ) is created. 4 . The method according to claim 1 , wherein coating the at least part of the core surface ( 18 ) having the microstructure ( 19 ) comprises applying the wear-resistant coating ( 17 ) using electrochemical deposition. 5 . The method according to claim 2 , wherein the electrochemical etching process has a current density of 20-40 A/dm2 and an etching duration of 30 seconds to 1200 seconds. 6 . The method according to claim 2 , further comprising using the tool core ( 16 ) as anode in a bath of chromium acid solution having from 50 to 300 grams of chromium trioxide per liter. 7 . The method according to claim 6 , wherein the bath has a temperature of 20° C. to 60° C. 8 . The method according to claim 6 , wherein a dwell time of the tool core ( 16 ) in the bath is from 10 seconds to 1800 seconds. 9 . The method according to claim 6 , wherein the bath contains 0.5 to 2.5% sulfuric acid by weight. 10 . The method according to claim 6 , wherein the bath contains a catalyst having a concentration in a range of 1-10 to 1-20 relative to the chromium trioxide content. 11 . The method according to claim 10 , wherein the catalyst is a sulfonic acid. 12 . The method according to claim 11 , wherein the sulfonic acid comprises at least one of methane sulfonic acid, dimethanesulfonic acid and naphthalene sulfonic acid. 13 . A method of using a textile machine tool part ( 10 , the textile machine tool part ( 11 ) comprising: a working section ( 12 ) configured to contact a thread or yarn; a holding section ( 14 ) configured to be held or moved by a textile machine; a tool core ( 16 ) that comprises a core material; wherein the tool core ( 16 ) in the working section ( 12 ) has a core surface ( 18 ) having a microstructure ( 19 ), at least in one section of the core surface; wherein the microstructure ( 19 ) of the core surface ( 18 ) has depressions and elevations that are connected to one another, wherein the depressions are depressed in a concave manner relative to a reference plane, while the elevations are raised in a convex manner relative to the reference plane, wherein a diameter of individual ones of the depressions and/or elevations is at most 60 μm and wherein a distance between a maximum depth of individual ones of the depressions and a maximum height of individual ones of immediately adjacent elevations is at least 10 μm and at most 60 μm; wherein the core surface ( 18 ) having the microstructure ( 19 ) is coated, at least in part, with a wear-resistant coating ( 17 ) that has a layer thickness (d) of a maximum of 20 μm and wherein an outer surface of the wear-resistant coating ( 17 ) also has a microstructure ( 22 ) due to the microstructure ( 19 ) of the core surface ( 18 ); and wherein the outer surface of the wear-resistant coating ( 17 ) forms at least part of an outer surface of the textile machine tool part ( 11 ); wherein the method comprises: producing or processing a textile material in a textile machine with at least one elastane yarn that comes into contact with the textile machine tool part ( 10 ). 14 . The method according to claim 13 , wherein a fineness of the at least one elastane yarn is at least 20 den or 22 dtex. 15 . The method according to claim 13 , wherein a fineness of the at least one elastane yarn is a maximum of 40 den or 44 dtex.