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Follow on Google News |  Screen Printing Mesh: Count Conversions, Nomenclatures and moreMost mesh today is monofilament, (see the end of this article for more about that). In the United States you will often see specifications for screen printing mesh that looks something like this: 355-34Y PW or 355/34 The number 355 represents the mesh count of 355 threads per inch. The number after the dash, in this case 34, refers to the thread diameter. The thread diameter, mesh count, and solid content of the ink will determine the amount of ink that passes through the mesh. The letter Y tells us if the mesh is yellow or W for white. Those are the two most common colors of mesh. The letters PW refers to the weave type of the mesh. PW stands for plain weave andTW stands for twill weave. All of these numbers and letters ultimately refer to the mesh geometry and performance which is important to understand. Mesh geometry is the description of all two and three dimensional aspects of the mesh construction. The two basic factors in mesh geometry are the mesh count and the thread diameter. The mesh count refers to the number of threads per inch contained in the mesh. The thread diameter refers to the diameter of the thread before it has been woven into the mesh. The thread diameter and mesh count together determine the mesh opening. To put it very simply, mesh opening is the spacing between adjacent threads. Mesh openings dictate the maximum particle size you can use in an ink and it affects the overall detail printed as well as the ink release characteristics. For best ink passage through any mesh count, the maximum particle size must be smaller than 1/3 of the mesh opening. It is important to remember that mesh geometry will define the characteristics of the mesh. The mesh opening, mesh thickness and the theoretical ink volume obtainable by the mesh are all determined by mesh geometry. Mesh geometry affects: Printability of fine detail, lines and halftones Crisp resolution of edges in the design Ink release properties Printing speed in relation to your ink viscosity Ink volume thickness Ink flow & consumption during printing In the United Kingdom mesh is measured in threads per centimeter. There is a rule of taking the US number (inches) and divide by 2.5 to get the UK thread count conversion. For example: 110 divided by 2.5 equals 44. This is closest to a 43T English or “European” S = small thread diameter T = medium thread diameter HD = heavy thread diameter S is the thinnest diameter and permits higher squeegee stroke speeds but normally requires high quality stencils. T is a medium diameter for soft hand printing as well as printing wet on wet on darks. HD is the thickest diameter of the three and requires a slower speed with a thicker stencil and a soft squeegee. The Italian, Japanese and French don't all use the same letters. The following is a general reference chart for these conversions. Please note these charts do not take into consideration American thread diameter measurements. US to Metric mesh count conversion: US count / Metric count: US Count 38 61 86 110 125 140 158 Metric Count 15T 24T 34T 43T 49T 55T 62T US Count 196 230 255 280 305 355 380 Metric Count 77T 90T 100T 110T 120T 140T 150T Extended Inches to Centimeters Conversion Chart: Threads/Inch 25 37 54 63 85 96 110 123 137 156 173 Threads/Centimeter 10 15 21 25 34 38 43 48 54 61 68 Threads/Inch 195 206 230 254 280 305 330 355 381 409 457 Threads/Centimeter 77 81 90 100 110 120 130 140 150 161 180 There is one more thing about mesh you should be made aware of. Most high performance mesh produced today will be monofilament. However, you may find multifilament mesh still in use or you may see the nomenclature referring to this type of mesh in print. Monofilament polyester fabrics are made from single threads formed thick enough to be directly woven into smooth, regular fabrics. In the U.S. mesh counts are given numerically such as 110. Multifilament polyester fabrics are made from fine polyester strands twisted together into threads and then woven into fabrics. In the U.S. mesh counts are represented by a number and text value such as 8xx. Monofilaments are the most regular fabrics. The single strand threads are capable of great detail. They also wear well during long print runs. It is less easy to adhere films and emulsions with monofilament than with multifilament, but they are easier to clean and to reclaim and less likely to clog during printing. The surface of the threads is less coarse, or more smooth and polished. Multifilament mesh used to be common in the textile industry. The threads are coarse and they are closest in character to the original multifilament silk fabrics used in ancient screen printing. They wear quicker than monofilaments, but they are well suited for printing on textured or contoured surfaces due to a mild elasticity which also may prevent very tight registration. Multifilament mesh will also have better adhesion qualities when using direct emulsion photo stencils or capillary film. Extended Inches to Centimeters Conversion Chart: Monofilament To Multifilament Mesh Count Conversion Table This table compares the mesh count numbers used for monofilament mesh with those used for a comparable multifilament mesh. Polyester Monofilament* 60 70 80-90 110 - 120 120 135 150 180 200 230 250 - 420 Polyester Multifilament 4xx 6xx 8xx 10xx 12xx 14xx 16xx 18xx 20xx 30xx plus 30xx plus *All meshes above 86 are low elongation. End
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