5 designers with the title of engineer or above, 2 full-time material engineers, 6 technicians, all of whom have worked in well-known domestic and foreign companies;
Yancheng has a production base with a total investment of 120 million yuan. The plant covers an area of 6,000 square meters, of which the total investment in equipment is about 35 million yuan.
Choose aerospace materials, low wear; excellent and reasonable design of internal structure and overall machine; precise processing equipment, standardized production process workshop, quality assurance.
Rucca promises to respond within 2 hours when receiving the buyer's report for repairs, provide a solution within 24 hours, and offer free damaged parts in warranty period.
Rucca is a famous producer and designer of wet grinding and dispersing equipment in China,product list:Inline Dispersing System,Full Series of Bead Mills,Basket Mill,Mixing machine such as High Speed Disperser,Dual Shafts Mixers,Triple Shafts Dissolver,High Shearing Homogenizer,Grinding Beads,and Whole Production Line.
For the performance requirements of ceramic ink, in addition to the particle size, viscosity, surface tension, electrical conductivity and PH value of ordinary ink, some special properties are also required according to the characteristics of ceramic application: ceramic powder is required to maintain good chemical and physical stability in solvent The nano-mill is mainly suitable for the production process of dispersion ceramic ink. After grinding, the ceramic ultra-fine powder can be directly obtained, and the particle size can reach several tens of nanometers. And the particle size distribution is narrow, it is a relatively advanced wet dispersing and grinding nanometer equipment.
The main motor drives the dispersing shaft to move at high speed through the V-belt, and the dispersing disc on the dispersing shaft drives the grinding medium to move to generate friction and shear force to grind and disperse the materials. The equipment adopts mechanical seal to make it fully airtight, thus eliminating the loss of solvent volatilization in production and reducing environmental pollution. On the other hand, since the air is prevented from entering the working cylinder, the dry solidification skin that may be formed during the production process of the material is avoided.
Nano mills are made of zirconia or silicon carbide and are completely isolated from the metal. In this way, the smooth operation of the material can be ensured. It is commonly used in carbon nanotubes, inkjets, cosmetics, biologics, etc.
Pigment ultra-fineness generally uses the ultra-fine grinding method (also called the ultra-fine grinding method). This method mainly uses ultra-fine grinding and shearing of organic pigment particles to homogenize the distribution of pigment particles. In order for organic pigments to have good stability in water, three conditions must be met: Wetting, stabilization and solid-liquid separation.
The ultra-fine grinding of pigments must select appropriate dispersion medium and separation equipment. The ultra-fine grinding method is simple and feasible, as long as there are conventional grinding and dispersing equipment, such as nano-mills.
Nano mill is suitable for the dispersion of various viscosity products and the grinding of nano-level materials. Mainly used in: nanomaterials, paints and printing inks, high-quality automotive paints, pigments and dyes, pesticides, papermaking, nano-grinding, pharmaceuticals and other industries, usually the processing fineness can reach below 100 nanometers.
Using a high-flow cyclic grinding and dispersing process requires the use of a reliable bead-liquid separation device, not only to achieve that the microbeads cannot block the separator, but also to make the liquid slurry flowing through the separator pass through the separator quickly, so as not to make the already small nanometers The high-grade raw material particles absorb excessive impact energy in the crushing chamber and agglomerate, and can reduce the temperature in the grinding and dispersing chamber.