A metal wire includes tungsten or a tungsten alloy. The metal wire has a diameter of at most 13 ?m, a tensile strength of at least 4.8 GPa, and a natural hanging length per 1000 mm of at least 800 mm.

A screen-printing screen for printing electrically conductive patterns on glass sheets, includes a main mask, the aperture size of the main mask being larger in a lateral portion than in the central portion, the screen furthermore including, in at least one double-mask zone, located in the central portion, at least one secondary mask fastened to a face of the main mask, the aperture size of the or each secondary mask being larger than the aperture size of the main mask in the central portion, and the mesh of the or each secondary mask making, with the mesh of the main mask, an angle ? comprised between 1 and 89?.

A screen printing mask (10) includes a main mesh (20), a main resin layer (30), and an additional net-like section (50A). The main resin layer (30) is provided on the main mesh (20) and has a through-hole (35). The additional net-like section (50A) may have a first additional layer (50Aa) and a second additional layer (50Ab). The first additional layer (50Aa) is provided on the main mesh (20), together with the main resin layer (30) by curing, through absorption of light, photocurable resin applied onto the main mesh (20). The second additional layer (50Ab) is provided on the first additional layer (50Aa) by curing, through absorption of light, a photocurable resin applied onto the first additional layer (50Aa). The additional net-like section (50A) has a greater thickness or depth than the main resin layer (30) so that a thicker portion is printed on a substrate in accordance therewith.

In some embodiments, a screen printing plate 10 includes a metal mesh part 13 and a metal mask part 14 provided on one side of the metal mesh part 13 integrally with the metal mesh part 13. In addition, the metal mask part 14 has an opening part 14a, and when the dimension from the outer edge 14a2 of the opening part 14a to the metal mesh part 13 represents a fill depth, this fill depth is the largest in the part corresponding to the center area of the opening part 14a. The screen printing plate does not cause the actual printing thickness to vary easily, even when the target printing thickness is reduced.

A screen plate for screen printing is provided with a plate frame, a supporting body screen having an outer peripheral part fixed to the plate frame, and a printing screen having an outer peripheral part fixed to the supporting body screen. The supporting body screen is made of an n/m twilled weave textile, wherein n and m independently represent an integer of 2 or more. The screen plate has excellent printing accuracy.

Examples are disclosed that relate to screen printing liquid metal materials. One example provides a method to deposit a metal pattern onto a substrate. The method includes placing a textile over the substrate, the textile having a plurality of pores wettable by a liquid metal. The method further includes forcing the liquid metal through the pores of the textile and onto the substrate, and separating the substrate and textile.

A method of printing solder paste in a component board and a stencil set for doing the same are disclosed. In one embodiment, the method includes using a first stencil having a first thickness to print solder paste into at least one through hole in the component board. The method further includes using a second stencil having a second thickness to print solder paste for at least one surface mounted part on the component board, subsequent to using the first stencil.

The present invention provides a screen assembly, a screen printing system and a screen printing method, belonging to the field of screen printing technology, by means of which the problem of prior art that the printed pattern has unsmooth lines caused by deformation of a thin film screen after a plurality of times of printing can be solved. The screen assembly of the present invention comprises a thin film screen and a fixed screen both having a same pattern. When a packaging cover plate is printed, the thin film screen is arranged above the fixed screen, and the fixed screen is arranged on the packaging cover plate, so that the printing material passes through the thin film screen and the fixed screen successively to be printed onto the packaging cover plate. The screen assembly of the present invention is particularly applicable to the printing process of glass material.

A printing screen includes a screen-shaped fabric layer with fabric threads being angled relative to one another to form a carrier layer. An imaged stencil layer is connected to the fabric layer and provided with passages. A respective passage forms a continuous channel and has an opening that is smaller on a printing material side of the printing screen than on a squeegee side of the printing screen. Such a printing screen has sufficient stability and advantageously allows the finest lines and dots to be printed. A method for imaging such a printing screen is also provided.

A printing screen unit comprising a mesh printing screen and a supporting frame which is attached to the printing screen, wherein the printing screen comprises a first, outer mesh which is attached to sides of the supporting frame and includes an aperture therein, and a second, inner mesh which is attached to the outer mesh, wherein threads, providing warp and weft, of the outer mesh are aligned so as to be substantially orthogonal to the sides of the supporting frame, wherein threads, providing warp and weft, of the inner mesh being aligned so as to have acute angles of between 0 degrees and 45 degrees to the respective sides of the supporting frame, wherein the printing screen is tensioned by an external tensioning assembly to a first tension when the printing screen is attached to the supporting frame, and the sides of the supporting frame are displaceable such that the sides of the supporting frame are displaced on release of the first tension by the external tensioning assembly, and the printing screen has a second, residual tension lower than the first tension.