The mixing tank thoroughly mixes the ground ink through the stirring device to ensure that the pigment particles are evenly distributed in the solvent. This helps to improve the uniformity and stability of the ink.
Product Display
Product Description
The equipment is a versatile nano bead mill that can be equipped with Boyee's patented TurboMax turbo and disc grinding system, as well as rod pin grinding system, enabling finer grinding. With a screen-based dynamic material discharge structure, it offers high flow rate and prevents blockages, making it suitable for high viscosity materials.
Product Advantages
● Suitable for grinding and dispersion of high viscosity materials
● Multiple options available for grinding systems and screen-based dynamic material discharge methods.
● Various options for internal structural materials, catering to different material requirements.
● Ceramic, polymer and alloy materials are available
● Good adaptation performance, wide application fields
Product Parameters
Model | Volume(L) | Power(kW) | Speed(r/min) | Media diameter(mm) | Weight(kg) | Size(mm) |
SW-5L | 4.5 | 15 | 0-2200 | ≥0.2 | 750 | 1800×1500×1650 |
SW-10L | 11 | 18.5 | 0-1320 | ≥0.2 | 850 | 1870×1520×1670 |
SW-30L | 34 | 37 | 0-1124 | ≥0.1 | 1300 | 2168×863×1415 |
Product Features
A premier equipment for grinding high viscosity materials, offering three selectable grinding structures that can be flexibly configured based on your material requirements.
Product Application
Faqs
Turbo bead mills, also known as high-energy bead mills or agitator bead mills, have some distinct characteristics and applications compared to other types of bead mills. Here are some of the key features and applications of turbo bead mills:
High energy density: Turbo bead mills operate at very high energy densities, which allows for efficient grinding of even the hardest and most brittle materials. This is achieved through the use of high-speed rotating disks or pins, which generate intense shear and impact forces within the grinding chamber.
Narrow particle size distribution: Turbo bead mills are particularly effective at producing narrow and uniform particle size distributions, due to the intense grinding action and the use of high-quality grinding media. This makes them suitable for a wide range of applications that require precise particle size control, such as inks, pigments, coatings, and pharmaceuticals.
High throughput: Turbo bead mills are capable of achieving very high throughput rates, due to the combination of efficient grinding action and the use of large-volume grinding chambers. This makes them suitable for large-scale production of high-quality dispersions and suspensions.
Versatility: Turbo bead mills can be used for a wide range of materials and applications, including aqueous and solvent-based formulations, as well as high-viscosity materials. They are also suitable for processing heat-sensitive materials, due to the efficient cooling provided by the cooling jacket surrounding the grinding chamber.
Easy maintenance and cleaning: Turbo bead mills are designed for easy maintenance and cleaning, with simple and accessible components that can be easily removed and replaced. This reduces downtime and increases productivity, as well as ensuring the long-term reliability and performance of the machine.
Design and construction: Turbo bead mills are typically constructed with a horizontal grinding chamber and a series of rotating disks or pins, which generate intense shear and impact forces within the grinding chamber. The grinding chamber is often designed with a cooling jacket, which provides efficient cooling of the grinding media and the material being ground. The design of the grinding chamber and the arrangement of the disks or pins can be optimized to suit specific materials and applications.
Scalability: Turbo bead mills are highly scalable, and can be used for both laboratory-scale and large-scale production. Small-scale turbo bead mills can be used for R&D and process development, while larger-scale models can be used for commercial production.
Material compatibility: Turbo bead mills are suitable for processing a wide range of materials, including organic and inorganic pigments, dyes, fillers, and various types of nanoparticles. They can also be used for grinding natural materials such as plant extracts, minerals, and ores.
Control and automation: Turbo bead mills often come with advanced control and automation features, such as programmable settings, digital readouts, and real-time monitoring of key parameters such as temperature, pressure, and flow rate. This helps to ensure accurate and consistent grinding results, and allows for efficient optimization of the grinding process.
Unique applications: Turbo bead mills can be used for some unique applications, such as in the production of nanoemulsions, which are stable and transparent emulsions with particle sizes in the nanometer range. They can also be used for the production of high-quality liposomes and other lipid-based formulations, which are widely used in the pharmaceutical and cosmetic industries.
Overall, turbo bead mills are characterized by their high-energy grinding action, narrow particle size distribution, high throughput, versatility, scalability, and easy maintenance and cleaning. They are suitable for a wide range of materials and applications, and are often used in industries where precise particle size control and high-quality dispersions or suspensions are required.