'This batch of equipment is finally about to be shipped.' In the factory workshop, looking at a row of neatly arranged pad printing equipment, this delivery incident reminds us that China's manufacturing industry is undergoing a profound change. From simply pursuing scale expansion to focusing on connotation-based development, from low-end imitation to high-end originality, every step embodies the wisdom and sweat of countless practitioners. In the future, as more similar successful cases emerge, I believe more people will realize the huge potential contained in China's manufacturing industry. In the context of global economic integration, how to further optimize the industrial structure and improve independent innovation capabilities? How to better connect with international market rules and achieve mutual benefit and win-win results? The answers to these questions may be hidden in these pad printing equipment that travels to foreign countries.
Dynamic blood glucose monitor is an advanced diabetes management tool that monitors blood glucose changes over the next 7 to 14 days by implanting micro sensors under the skin. Its sensor is the most core component with the highest barriers in the system. It consists of metal electrodes, inner layer, enzyme layer and outer membrane, which directly determines the accuracy of the system measurement results. Therefore, the preparation process of its metal electrode is very critical. The metal electrodes are printed with conductor lines (silver paste, carbon paste) on PI/PET films with a thickness of 50 um to 200 um by screen printing, and the printing accuracy is high. However, this process faces many challenges, and some companies are still struggling to move forward on the R&D road. For example, after printing and drying, the edges of the substrate often lead to deviations in the secondary printing position, affecting the accuracy of the electrode; the substrate itself has large errors, resulting in frequent failure of alignment. In order to solve these challenges and accelerate the product development process, we need to seek professional technical support and solutions.
Pad printing and screen printing are two different printing methods that can be used in a variety of products and a variety of different materials. Screen printing is used in textiles, ceramics, wood, glass, metal, paper and plastics. It can be used in balloons, decals, clothing, medical equipment, product labels, logos and displays, printed electronics and fabrics. Pad printing is used in plastics, glass, metals, rubber and wood. It can be used in medical devices, candy, medicines, cosmetic packaging, bottle caps and seals, hockey, TV and computer monitors, T-shirts and other clothing, and letters on computer keyboards. This article explains how these two processes work and compares them to gain insight into which might be the best choice for you. What is pad printing? Pad printing uses indirect offset, gravure and printing processes to transfer two-dimensional images to three-dimensional objects, which uses silicone pads to transfer images from the base plate to the substrate. Pad printing can be used in many industries
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