Case Sharing: Carbon Nanotube Production Line Constructed by RUCCA is Put into Operation

Case Sharing: Carbon Nanotube Production Line Constructed by RUCCA is Put into Operation



  In the wave of high-tech material manufacturing, carbon nanotubes, with their unique physical and chemical properties, have become the focus of attention in many fields. From the miniaturization of electronic devices to the development of new energy sources, carbon nanotubes have shown great potential and application value. However, to realize the large-scale production of carbon nanotubes and guarantee its quality, it is indispensable to have the support of advanced production equipment and technology. Today, we will discuss in detail how RUCCA sand mill and inline dispersing system in the carbon nanotube production line have set off a huge wave in the industry with their excellent performance.
  First of all, let's go back to the production site of carbon nanotube production line. Here, RUCCA IDS inline dispersing system and sand mill work together to complete the transformation of carbon nanotubes from raw materials to finished products.IDS inline dispersing system, as the key equipment for pre-dispersing, provides a strong guarantee for the whole production process with its technical feature of dust-free powder or liquid absorption. Whether it is from silo, tonnage bag, or hopper, bag, drum, etc., IDS can easily cope with it, mixing and dispersing the raw materials and laying a solid foundation for the subsequent grinding work.

  It is worth mentioning that IDS inline dispersing system also shows excellent performance when dealing with powders that are difficult to wet and easy to stick. This ability is especially important in the production of carbon nanotubes, because carbon nanotubes themselves have a very high specific surface area and surface activity, and are prone to reacting or agglomerating with other substances.The application of IDS inline dispersing system effectively solves this problem, ensures the homogeneity and stability of the raw materials, and provides a strong guarantee for the production of high-quality carbon nanotubes. It is worth mentioning that the IDS inline dispersing system also shows excellent performance when dealing with powders that are difficult to wet and easy to stick. This ability is especially important in the production of carbon nanotubes, because carbon nanotubes themselves have a very high specific surface area and surface activity, and are prone to react or agglomerate with other substances.The application of IDS inline dispersing system effectively solves this problem, ensures the homogeneity and stability of raw materials, and provides a strong guarantee for the production of high-quality carbon nanotubes.
Next, the raw materials, which have been pre-dispersed by IDS inline dispersing system, enter the sand mill for grinding. Here, RUCCA sand mill, with its unique design and advanced technology, further refines the raw materials and prepares carbon nanotubes with uniform particle size and stable quality. During the grinding process, the sand mill gradually refines the material particles through the friction and impact between the high-speed rotating grinding wheel and the material. Meanwhile, the sand mill is also equipped with an advanced control system, which can monitor and adjust the grinding parameters in real time to ensure the consistency and stability of product quality.
In the carbon nanotube production line, the application of RUCCA sand mill not only improves the production efficiency, but also reduces the energy consumption and cost. Compared with the traditional high speed disperser, RUCA IDS inline dispersing system saves more than 50% energy, and this advantage is especially obvious in the long production process. In addition, RUCCA sand mill also has the characteristics of easy operation and convenient maintenance, which greatly reduces the labor intensity of production personnel and maintenance costs.
In the future development, RUCCA sand mill will continue to promote the upgrading and innovation of technology, and contribute to the development and progress of carbon nanomaterials.
 

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