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.
Inline high shear emulsifier is a high-efficiency continuous production emulsifier. It processes materials in continuous production or circulation of fine materials. The motor drives the rotor to rotate at high speed. It reduces the particle size of liquid-liquid and liquid-solid materials through external mechanical force, and evenly distributes one phase material into another phase or many other phases to achieve good homogenization, dispersion and emulsification. As a result, the material becomes a stable emulsion.
High Speed Laboratory Homogenizer High speed laboratory scale shear has high speed for better and more efficient completion of dispersion, homogenization, emulsification and mixing. It is the ideal laboratory emulsifying equipment. For dispersing, mixing, emulsifying, homogenizing and dissolving in the laboratory. The whole process of stirring, homogenizing, emulsifying, dispersing and mixing is suitable for dispersing, emulsifying and homogenizing materials in the industries of biology, pharmacy, food, printing ink, textile auxiliaries, cosmetic lubricants, and fertilizers.
The homogenizer on the main shaft, which is operated by an electric motor, produces a high centrifugal speed of the material. Through the strong cutting, impact and turbulence from the high shear wheel and cutting box, the material becomes particles of 200nm-2um at the cutting gap and disperses in a short time.
The rotors and stators of the high shear emulsifier mixer liquid soap making machine have precision, ensuring that the material is processed with a shear effect every few hundred times. Several interchangeable stator heads cover a wide range of applications including cosmic emulsions such as mortar and other processes that require mixing, homogenizing, crushing, suspending and dissolving.
The essence of the emulsification process is the process of breaking and refining large water aggregates into micro-sized micelles. The combined action of the emulsifier and the emulsifier completes the emulsification process. Emulsification methods currently used include mechanical, chemical, electromagnetic and other methods. High shear, ultrasonic, high pressure homogenization, jet flow, vortex mixing and stirring are mechanical methods; the emulsifier is actually a chemical method; the magnetization treatment is an electromagnetic method.
The high shear emulsifier has the following basic functions: 1. shearing (1) The material is instantly sheared by the powerful filling and sealing machine through the outer diameter of the rotor and the inner diameter of the stator. (2) The complex and intense fluid motion drives the particles to collide with each other, and the particles collide with the rotating stator, thereby forming a hydraulic shear effect that cannot be underestimated. 2. Friction (rubbing) action The material is subjected to strong grinding and tearing between the outer diameter of the rotor and the inner diameter of the stator. 3. pump mixing The centrifugal movement of the fluid is driven by the rotor cutting groove and the rotation of the blades to produce a pumping effect. The agitation of the rotor slot, the stator slot and the centrifugal blade produces a mixing effect.