Digital ceramic printing on glass is a new technology used for the effective use of imagery, pattern or text to the surface of flat glass. It has helped for new possibilities and improvements in glass decoration and treatment, especially in architectural glass. The new possibilities include high degrees of customization, translucency and opacity control, light diffusion and transmission, and solar heat gain co-efficiency calculation.
Due to the extreme durability of the latte printer, the top level of customization it enables, along with its suitability for long and short runs, digital ceramic printing is a perfect solution for interior and exterior architectural glass applications. The procedure does not require screens, as well as the files are stored digitally. Therefore, you can find no setup, storage, or maintenance costs; and printing of any size for any panel is simple.
The primary elements that play a role in the overall growth of digital ceramic printing on glass are digital glass printers, ceramic inks, and image processing software.
An electronic digital glass printer for digital ceramic printing on glass is uv printer with print heads that jet ceramic inks directly to the glass. The glass remains stationary, while only the printer carriage sweeps throughout the print table.
A key feature in the printer is drop fixation, where ink droplets are dried immediately to prevent drop gain. The fixation from the ink enables just one pass from the print carriage even though printing multi-layer and multi-color files. The drop fixation also makes inline double vision printing possible. Double vision involves creating a graphic that appears different depending on which side of the glass will be viewed. It really is achieved by printing different graphics one on the top of another. An inline dryer was made to permit real-time drying and to maximize factory space. An even color switching system is included in order that machine operators can certainly shift between print jobs and increase throughput. The high-resolution print quality (as much as 720 dpi) and also the precision in the printing mtyrxw allow glass processors to print anything from fine, sharp and small elements to complex, full-color images on glass panels as much as 3.3 x 18 m (10.8 x 32.8 ft) in size.
Digital ceramic printing on glass uses digital ceramic inks that mimic the CMYK color model and are made from ceramic composition and inorganic pigments and elements. The inks are produced in a highly controlled production process to eliminate any variability in the final product. The consistency in replication in the inks leads to high compatibility using the entire color palette of inks. The inks can therefore be digitally mixed and designers will know the precise outcome of the colour every time. Printed architectural glass panels can also be replaced when needed without the potential risk of the brand new panels not matching the colors from the existing panels.
Design-to-glass workflow software bridges the t-shirt printer and the inks and is also the design and style tool for preparing the graphic apply for printing. It calculates ink usage to control level