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.
Inkjet ink inline dispenser can be used to research and produce nano slurry, carbon tube, inkjet ink, grease, chemical synthesis reaction and mixing of high viscosity materials for dispersion system, mixing system, emulsification system, heating system, weighing system, vacuum pressure system, temperature and pressure sensing system and inkjet ink inline dispenser under complex working conditions.
Pigment Inline Disperser It is mainly used for pre mixing enamel, dispersion of waterborne emulsion and mixing of surface paint before sand mill. Because there is little absorption and retention of air in the process of material mixing and dispersion, the effect of mixing and equalization is the best. If it is dispersed with medium speed or rapid stirring, the material fed into the machine will dissolve rapidly and its particles will become smaller. Because of their best performance, these processing equipments have been widely used in manufacturing industries, such as paints, emulsions, printing inks, chemicals, etc.
According to the characteristics of power battery - high solid content and high viscosity, based on the traditional planetary and decentralized power mixer, a new enhanced hybrid vehicle with higher speed and torque is needed. When the slurry is pumped into the dispersion device from the bottom of the container at a stable feed rate, the high centrifugal force generated by the high-speed rotating cylindrical disperser makes the fluid pass through the cylindrical structure of the cylindrical disperser. A thin film turbulent dispersion layer is formed between the inner wall of the fixed container and the high-speed rotating disperser. The slurry in the thin film turbulent dispersion layer collides violently under high shear force and friction, which makes the aggregate disperse rapidly. After high-speed dispersion, the slurry flows out of the dispersion device and enters the ultrasonic device. The resonance damage impact force (micro bubbles) generated by ultrasonic wave further disperses the slurry in nano, so as to ensure the consistency of fluid dispersion quality and improve production efficiency.
Battery Slurry Inline Disperser. It is optimized by computational flow field simulation and hydrodynamics. It is installed vertically. Through the double wall pipe, the material and liquid are pumped into the chamber from up to down, which is wetted and dispersed instantly, so as to avoid condensation before entering the main body of the chamber. In addition, due to the low viscosity of the processing zone and the design of the dispersion zone of the machine, the technology can be applied to the whole range of processing materials.
The inline disperser operates in circulation mode, so the powder can be fed from the bag through the suction gun or bag feeding station. Through the best flow control, negative pressure is generated in the processing chamber during operation. This negative pressure is used to inhale the powder, so as to minimize the introduction of external air in combination with appropriate powder conveying. Here, the wetting process is not based on the classical rotor stator principle, which realizes dispersion through high shear rate. Due to the pressure gradient between the supply side and the conveying side, the liquid is pressed into the agglomerate structure, so that each particle of the solid is almost ideally wetted in a very short time. Due to the low shear rate, the energy input is significantly lower than that of the traditional rotor stator system, which means that the increase of product temperature is small.
In a inline disperser, dispersion occurs in a mixing chamber, which is reduced to a minimum volume. Therefore, the mixed energy is introduced into the product in the most effective way.