Product Description

1. Suitable for small-scale R&D and small-batch production; through product collaboration and testing with the Department of Engineering and the Department of Materials at Tsinghua University, the Material Energy Conservation Center at South China University of Technology, the Department of Chemistry at East China University of Science and Technology, and the Department of Fine Chemical Engineering at Shenzhen Polytechnic, the final fineness of the materials has reached 100nm (nanometer level).
2. Suitable for continuous or batch operation modes, can be equipped with grinding jars of various sizes, and is easy to replace.
3. A grinding machine incorporates two grinding principles and can be equipped with PHE dispersion discs arranged in a specific order, overcoming the traditional machine's drawback of uneven grinding media distribution. Alternatively, it features PUHLER's** high-flow 4. separation barrel pin-type accelerator. **The high-flow separation barrel accelerator ensures that grinding beads undergo energy-rich fluid motion, thereby achieving consistent high-energy input for low-viscosity products.
4. A unique, dynamic separation system is used to reliably retain ultrafine grinding beads with diameters between 0.05-0.3mm within the grinding chamber. **Excellent product grinding quality and an extremely narrow ultrafine particle size distribution within D90=80nm are fully achievable.
5. Elegant and universally applicable design allows parameter ratios to be scaled up to any PHE and PHN production models based on the same grinding principle. The ideal continuous and recirculating production process ensures consistently stable efficiency, achieving the narrowest particle size distribution.
6. Ideal equipment conversion for multi-purpose use. It offers broad adaptability for grinding various materials, allowing the selection of components that come into contact with the product based on different materials (such as special wear-resistant steel, hard alloy steel, stainless steel, tungsten carbide, zirconia, silicon carbide, polyamide, etc.). The use of high-quality functional components ensures a long machine lifespan and metal-free contamination.
7. Small batch sizes and ideal cooling performance are well-suited for temperature-sensitive products. The short and thick design of the grinding chamber, combined with an optimal cooling design, allows for better grinding of temperature-sensitive products.
8. Low energy consumption benefits from efficient energy input.
9. Easy to Disassemble and Assemble - It is very easy to disassemble for convenient maintenance, and can be switched to different grinding configurations in just a few simple steps.
10. The grinder can be easily cleaned with very little detergent, and its smooth grinding chamber design contributes to easy handling as well as extremely low operation and maintenance costs.
11. The cutting-edge PLC process control system is easy to operate, and the recording of operational data through modules ensures the repeatability of future production.
12. Ensure the reading and monitoring of various data during equipment operation, with convenient operation.