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The dry electrode process using powder-into-films technology, lithium battery dry electrode technology has advantages in multiple aspects. Technically, it does not require solvent coating, and directly hot-presses the active materials, binders and conductive agents into shape, simplifying the process flow and improving production efficiency; the electrode has high compaction density, which can effectively enhance the battery's energy density and cycle stability. In terms of cost, due to the reduction of solvent use and recycling links, equipment investment and operating costs are significantly reduced. In terms of energy conservation and environmental protection, it completely gets rid of the dependence on organic solvents such as NMP, eliminates environmental pollution and potential safety hazards caused by solvent volatilization, reduces energy consumption, conforms to the concept of green manufacturing, and has become an important direction for technological innovation in lithium battery production. It is suitable for cutting-edge fields such as solid-state batteries and large cylindrical batteries, has passed industry verification and entered the stage of large-scale mass production.

The dry process technology applied to high-frequency and high-speed copper-clad laminates, with its solvent-free process, simplifies the production flow, reduces energy consumption and pollution, while improving production efficiency and lowering costs. PTFE substrates feature low dielectric constant, small dielectric loss, and resistance to high and low temperatures, providing a stable foundation for high-frequency and high-speed signal transmission. The high-frequency and high-speed copper-clad laminates based on this have extremely low loss in signal transmission and can stably support the transmission of ultra-high-frequency signals such as 5G and millimeter waves. They are widely used in fields such as 5G communication base stations, satellite communications, AI high-performance servers, and automotive radars, effectively promoting the development of electronic devices towards higher speed and higher frequency.