Biomedical Device Screen Printing

The silk-screen printing process for infrared thermometers involves the use of a silk-screen stencil as the printing tool. Special ink is evenly applied to the stencil, creating the desired pattern. Then, the stencil is placed on the surface of the infrared thermometer, and a squeegee is used to evenly press and spread the ink through the holes of the stencil onto the thermometer. This process is simple to operate and produces clear and vivid printing results. Additionally, the ink used in silk-screen printing has excellent adhesion and wear resistance, ensuring that the printed pattern remains intact for a long time. Through this process, infrared thermometers not only maintain their practical temperature measurement function but also gain added aesthetics and personalized elements.

Screen printing for biosensors is a crucial technology in biosensor manufacturing. First, an appropriate substrate, such as PET or glass, is selected. Then, conductive materials, biorecognition elements, and other functional layers are sequentially printed onto the substrate through a screen stencil. During the printing process, temperature and humidity must be strictly controlled to ensure material performance and interlayer adhesion. After printing, the product undergoes drying and curing treatment, followed by cutting to the required size and quality inspection. This process offers high precision, high efficiency, and low cost, making it suitable for mass production.

Screen printing process for electronic blood pressure monitors: mainly through precise plate making and color matching, patterns, text or scales are accurately printed on the surface of the electronic blood pressure monitor. Screen printing has the advantages of low cost, good repeatability and high speed, and is suitable for large-scale production of electronic blood pressure monitors. At the same time, this process can also customize personalized patterns according to customer needs to enhance product competitiveness. The electronic blood pressure monitor after printing is not only beautiful in appearance, but also displays clear information, which helps users use the product more conveniently.

The blood glucose meter screen printing process is a crucial technology used in the manufacturing of blood glucose test strips. First, a suitable substrate, such as PET film, is selected. Then, conductive ink and enzyme layers are printed onto the substrate through a screen stencil, ensuring uniform and precise layers. During the printing process, humidity and temperature need to be controlled to ensure the performance and adhesion of the ink. After printing, the test strips undergo drying and curing treatment. Finally, they are cut to specified sizes and undergo quality inspection to ensure the accuracy and stability of each test strip. This process is efficient, cost-effective, and suitable for mass production.

Centrifuge tube scale screen printing is an efficient and precise printing technology widely used in biological laboratories and scientific research. This technology uses the principle of screen printing to print fine scale lines on the surface of the centrifuge tube, making it convenient and quick to read the volume of the substance in the centrifuge tube. Centrifuge tube scale screen printing not only ensures the clear visibility and durability of the scale, but also improves the accuracy and repeatability of the experiment. At the same time, its simple operation and low cost also make it popular among scientific researchers. The promotion and application of centrifuge tube scale screen printing technology provides strong support for scientific research experiments.
Taoxing servo cursor positioning curved screen printing machine can be used for centrifuge tube scale and logo color printing, with good printing effect and high production efficiency.