Application of fluorescent screen printing ink technology

【Abstract】This paper describes the occurrence, development and characteristics of screen printing technology for fluorescent ink.

【Key words】 Fluorescent screen printing ink technology

In the history and growth of the screen printing industry, many technological innovations have emerged that have made a significant contribution to the industry. These include the use of knife stencils, the use of ready-to-use screen inks, the standardization of photographic printing plates, the creation of screen printing international associations, the generation of mechanical printing, the spread of information technology required by screen printers, and fluorescence Ink development and so on.

Daylight-type fluorescent screen printing inks were put into use in 1948, and they were impressed with their neon-like brilliance, dramatic colors, attractive attraction and artistic expression. Because its effect can be best used in the field of screen printing, it is often used in screen printing workshops. Silk screen printing is an ideal printing method for fluorescent inks because it has a uniform ink film layer that is required for the luster, stability, and weather resistance of fluorescent inks. Fluorescent ink pigments have a coarser grain size than conventional pigments and were first used for rough screen printing. However, in recent years, more and more fluorescent inks that can be used for fine screen printing continue to emerge. Fluorescent inks are mainly used for printing window displays, decals, bumper guards, industrial insurance equipment, body advertising, letters, posters (posters), 24 inch posters, notepads, signal flags, magazine covers, invitations, outdoor advertising, Cloth labels and so on. Due to the great difference between fluorescent inks and common ink colors, fluorescent inks play an important role in screen-printed outdoor and indoor advertising.

Fluorescent inks are luminescent materials and are substances that emit light. The substance absorbs the energy of solar radiation when it is exposed to sunlight and then stores it in the form of heat, or a photochemical reaction takes place, or the energy is emitted in the form of visible light. The absorbed radiant energy is shorter than the emitted energy wavelength. People absorb light of different colors and then emit it as fluorescence. The phenomenon of emitting light in the dark after absorbing light is called phosphorescence. The difference between the two is that the phosphor absorbs natural light or artificial light and emits light in a dark environment after the light is removed, and the fluorescent light must absorb light in the presence of light to emit light. Fluorescent inks can also emit light in the presence of "night light" or violet light. However, it does not glow in the dark and no light. The fluorescent ink not only shows its own color, but also has the ability to absorb light and change the light intensity so that the color it exhibits has a stronger light intensity, but the hue (or color) does not change.

Ordinary inks or dyes display colors by reflected light, and each ink color has a different wavelength and output energy. For example, the red light reflects red and absorbs other colors. The fluorescent red not only has partially reflected red, but also converts other colors (green, blue, and purple) into red wavelengths that emit as red light, so the color appears to radiate from the interior of the object. It is this luminescent property that makes the ink known as fluorescent ink. Printers use fluorescent inks for printing to obtain four times the brightness and visibility of ordinary inks. Fluorescent inks appear bright in dim light, such as at dusk and dawn.

The reflection characteristics of ordinary ink color and fluorescent ink color are different, and the unit of measurement is angstrom. Fluorescent ink converts short-wavelength light into long-wavelength light and superimposes to generate fluorescence. Through conversion and superposition, a fluorescent color with special brightness and visibility is formed.

Normally, daylight-type fluorescent colors indicate a direct lifetime in sunlight of 30 days. But now the life of the color in the room has been greatly improved. This color can be extended indefinitely indoors. It can be used to express vivid and jumping colors. At present, fluorescent inks have the advantages of fine background, fast drying, and ease of use for thinner ink layers. Attention should be paid to the use instructions when using them.

Fluorescent ink pigments are based on fluorescent pigments, carefully chemically compounded, stirred and mixed with plastic resins under experimental control. The daylight fluorescent color is the color formed by the dye suspended in a colorless, transparent, insoluble resin. The resin esters are based on powdered substances and are added to specific binders with careful mixing and stirring. As shown in Figures 23 and 24. Compared with resin esters, the amount of dyes only accounts for a very small proportion. However, to obtain maximum ink brightness, it is necessary to add a certain amount of dye or resin to the fluorescent color.