Agitator Bead Mill, NT-V
Grinding Chamber Volume: 6L-400L
Fineness: 100nm-2μm
Solvent: water-based, oil-based
Viscosity: ≤10,000cps
Grinding bead size: 0.2-2.0mm or 0.3-2.0mm
Selectable materials: tungsten carbide, polyurethane, zirconium oxide, silicon carbide
NT-V agitator bead mill is a high efficiency wet grinding system used for milling of solid powders into nanometer range particles of a fineness range 100nm-2μm. It allows a higher throughput than that of similar grinding equipment by 30-50%, and the energy consumption is lowered by 30-50%.
Highly efficient centrifugal separation system makes it possible to use grinding media of 0.2-2.0mm. The grinding media is moved in a radial direction by means of rotor, creating shearing and impacting forces on products. Under the shearing and impact action of the grinding beads in grinding chamber, the final particles are finely ground and dispersed.
The design of grinding process aims at offering excellent particle size reduction to a range of 100nm-2μm within a short period. This agitator bead mill is characterized by high efficiency while providing uniform fineness, as well as features including low energy consumption, high stability, and less production and maintenance cost.
- Material flows into grinding chamber from inlet;
- Add grinding media, such as zirconium oxide grinding beads;
- Grinding discs or rotor rotates at a high speed;
- Shearing force is produced through the impact action of grinding media, thus to accomplish mixing and dispersing;
- Separation system allows the final particles to be discharged out while the grinding beads are retained in grinding chamber;
High efficiency is guaranteed due to the extremely narrow size grinding with high speed of 8-14m/s, thus to provide uniform particle size distribution.
| Model | Grinding Chamber Volume (L) | Drive Motor (kW) | Batch Capacity ( L/H) | Media Size (mm) | Weight (kg) | Dimension (mm) |
| NT-V6 | 6 | 15 | 20-100 | 0.2-2.0 | approx. 500 | 1300x710x1600 |
| NT-V10 | 10 | 22 | 30-300 | 0.2-2.0 | approx. 1280 | 1430x860x1780 |
| NT-V25 | 25 | 37/45 | 80-800 | 0.2-2.0 | approx. 1600 | 1830x1050x1950 |
| NT-V30 | 30 | 37/45 | 100-1000 | 0.2-2.0 | approx. 1800 | 1830x1050x1950 |
| NT-V60 | 60 | 75 | 200-2000 | 0.2-2.0 | approx. 3480 | 2230x1050x2200 |
| NT-V100 | 100 | 110/132 | 500-4000 | 0.3-2.0 | approx. 5200 | 2900x1400x2600 |
| NT-V150 | 150 | 160/200 | 800-6000 | 0.3-2.0 | approx. 6600 | 2900x1400x2600 |
| NT-V400 | 400 | 355/400 | 2000-10000 | 0.3-2.0 | approx. 11000 | 3000x1600x2850 |
- Tungsten Carbide
- Polyurethane
- Zirconium Oxide
- Silicon Carbide
A selection of materials including tungsten carbide, zirconium oxide, and silicon carbide are available, which are suited to water-based and oil-based materials for a better corrosion resistance. E.g. zirconium oxide is resistant to acid and alkali, while the polyurethane is more suitable for water-based materials.
- Nano Materials
- Graphite
- Magnetic Materials
- Ceramics
- Cosmetics
- Lithium Iron Phosphate(LFP)
- Inkjet Ink
- Medicine
- Aluminium Oxide Powder
- Insulation Coatings
- Nano Silicon
- Ceramic Ink
- Biological Materials
- Zirconium Silicate
- Pesticides
