A textile machine tool part (11) that is used in textile processing in a textile machine and a method for producing same are disclosed. The textile machine tool part (11) has a tool core (16) made of a core material and is coated, at least in part, with a wear-resistant coating. The wear-resistant coating (17) is applied to a core surface (18) that has a first microstructure (19). The first microstructure (19) is preferably created using electrochemical etching in the core surface (18). The wear-resistant coating (17) applied thereto is preferably applied directly to at least a section of the core surface (18) having the first microstructure (19) using electrochemical deposition and has a layer thickness of a maximum of 20 μm.

A textile machine tool part (11) that is used in textile processing in a textile machine and a method for producing same are disclosed. The textile machine tool part (11) has a tool core (16) made of a core material and is coated, at least in part, with a wear-resistant coating. The wear-resistant coating (17) is applied to a core surface (18) that has a first microstructure (19). The first microstructure (19) is preferably created using electrochemical etching in the core surface (18). The wear-resistant coating (17) applied thereto is preferably applied directly to at least a section of the core surface (18) having the first microstructure (19) using electrochemical deposition and has a layer thickness of a maximum of 20 μm.

A thin film metallic glass coated needle includes a needle body, a needle head and a thin film metallic glass in amorphous structure and formed on a surface of the needle head and a surface of the needle body to reduce a surface energy and coefficient of friction. The thin film metallic glass is a titanium based comprising 35-45 at % titanium, 5-15 at % zirconium, 32-42 at % copper, 1-11 at % niobium and 2-12 at % cobalt.

A thin film metallic glass coated needle includes a needle body, a needle head and a thin film metallic glass in amorphous structure and formed on a surface of the needle head and a surface of the needle body to reduce a surface energy and coefficient of friction. The thin film metallic glass is a titanium based comprising 35-45 at % titanium, 5-15 at % zirconium, 32-42 at % copper, 1-11 at % niobium and 2-12 at % cobalt.

Embodiments of the present invention relate to hand sewing needles that have periodic markings to facilitate the creation of stitches of equal length and spacing. Because regular stitching can be difficult to produce by hand but is nevertheless necessary for a garment or other sewing product to be considered of quality, presentable, and professionally made, embodiments of the invention aid those with little sewing experience in producing regular stitching. Embodiments of the present invention also relate to methods for producing and using the disclosed hand sewing needle.

Embodiments of the present invention relate to hand sewing needles that have periodic markings to facilitate the creation of stitches of equal length and spacing. Because regular stitching can be difficult to produce by hand but is nevertheless necessary for a garment or other sewing product to be considered of quality, presentable, and professionally made, embodiments of the invention aid those with little sewing experience in producing regular stitching. Embodiments of the present invention also relate to methods for producing and using the disclosed hand sewing needle.

A hand sewing and knitting needle comprises an elongate body having a first end section extending from a first end to a middle section. The elongate body having a second end section beginning at the middle section and extending to the second end of the second end section. The middle section extending from a second end of the first end section to the first end of the second end section.

A hand sewing and knitting needle comprises an elongate body having a first end section extending from a first end to a middle section. The elongate body having a second end section beginning at the middle section and extending to the second end of the second end section. The middle section extending from a second end of the first end section to the first end of the second end section.

The invention relates to a textile machine tool part (11) that is used in textile processing in a textile machine and to a method for producing same. The textile machine tool part (11) has a tool core (16) made of a core material and is coated, at least in part, with a wear-resistant coating. The wear-resistant coating (17) is applied to a core surface (18) that has a first microstructure (19). The first microstructure (19) is preferably created using electrochemical etching in the core surface (18). The wear-resistant coating (17) applied thereto is preferably applied directly to at least a section of the core surface (18) having the first microstructure (19) using electrochemical deposition and has a layer thickness of a maximum of 20 μm.

The invention relates to a textile machine tool part (11) that is used in textile processing in a textile machine and to a method for producing same. The textile machine tool part (11) has a tool core (16) made of a core material and is coated, at least in part, with a wear-resistant coating. The wear-resistant coating (17) is applied to a core surface (18) that has a first microstructure (19). The first microstructure (19) is preferably created using electrochemical etching in the core surface (18). The wear-resistant coating (17) applied thereto is preferably applied directly to at least a section of the core surface (18) having the first microstructure (19) using electrochemical deposition and has a layer thickness of a maximum of 20 μm.