BYZr Ceramic Turbine Bead Mill
China's first self-developed all-ceramic sand mill | Zero pollution | Mature and stable | Popular overseas
Highest Level of Ceramic Turbine Grinding Technique
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Product Description
BYZr ceramic turbo sand mill is the first nano-scale all-ceramic turbo sand mill in China developed by Boyee independently, which has been verified and approved by many head enterprises and has been successfully used in many applications.
Product Advantages
● Patented turbine structure design
● More pure and refined grinding quality
● Applicable for high viscosity products
● Full ceramic or plastic texture, free from metal pollution
● Dual-end face mechanical seal
● Outstanding cooling performance
● Dynamic discharging of filter screen to reduce occurrence of screen clogging
● Easy to be operated and installed
Product Parameters
| Model | Volume (L) | Power (KW) | Speed (r/min) | Media diameter (mm) | Weight (kg) | Size (mm) |
| BYZr-3L | 2.2 | 7.5 | 0-1450 | 0.3-1 | 468 | 1200×1050×1450 |
| BYZr-15L | 11 | 30 | 0-1860 | 0.3-1 | 1205 | 1600×1350×1850 |
| BYZr-30L | 22 | 37-45 | 0-1325 | 0.3-1.2 | 1425 | 1750×1350×1850 |
Product Features
Our BYZr series sand mill applies the exclusive patented TurboMax turbine grinding structure to effectively prevent overt dispersion of materials and provide gentler and more delicate grinding effect.
Product Application
Faqs
The bead mill is a type of grinding equipment used for particle size reduction and dispersion of materials in various industries, including pharmaceuticals, cosmetics, and biotechnology. The first bead mill was invented in the 1930s by Dr. Andre Noack, a German scientist.
Dr. Noack's original design was a vertical agitator bead mill that used glass beads as the grinding media and a motor to rotate the agitator shaft. The mill was designed to grind and disperse pigments for use in printing inks and paints.
After Dr. Noack's invention of the first bead mill in the 1930s, the technology was further developed in the 1950s and 1960s by other scientists and engineers. The introduction of the horizontal bead mill allowed for continuous processing, which increased efficiency and reduced production costs. The use of ceramic beads as grinding media also improved the performance and durability of the bead mill.Ceramic beads were also introduced as a more durable and effective alternative to glass beads.
In the 1970s and 1980s, the bead mill was further developed for use in the pharmaceutical industry. The technology was used for particle size reduction and dispersion of drugs and other active ingredients in various formulations, such as tablets, capsules, and suspensions.
In the 1990s, the development of nanotechnology led to the use of bead mills for the production of nanoparticles. The small size and high surface area of nanoparticles require specialized equipment for their production, and the bead mill was found to be an effective method for producing uniform and stable nanoparticles.
Today, bead mills are used in various industries, from grinding and dispersing nanoparticles to cell disruption and protein extraction in biotechnology.including pharmaceuticals, biotechnology, cosmetics, and paints and coatings. They are available in a range of designs and configurations, from small bench-top models for laboratory use to large-scale production systems for industrial applications. Advances in technology have led to the development of high-performance bead mills that are capable of producing nano-sized particles and achieving high levels of dispersion and uniformity.
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