$3,935.00
| Grinding Jar Size | 50-1000 ml |
| Vacuum Jar Size | 50-500 ml |
| Sun Wheel Speed | 5-400 rpm |
| Ball Mill Jar Speed | 10-800 rpm |
| Power Consumption | 0.75 kW |
| Power Supply | AC 220V, 50Hz |
| Product Dimension | 710 × 500 × 600 mm |
| Packaging Dimension | 820 × 550 × 650 mm |
| Net Weight | 99 Kg |
| Gross Weight | 130 Kg |
Our Nano-scale Planetary Ball Mill BZNBM-504 is designed for laboratories requiring scalable milling capacity with fine control over material properties. It is ideal for applications in advanced ceramics, functional materials, composite development, and powdered pharmaceuticals.
Frequently Asked Questions
1: What is a Nano-scale Planetary Ball Mill?
A Nano-scale Planetary Ball Mill is a high-energy milling device designed for grinding materials into nano-sized powders. It achieves this through rapid rotations and ball impacts.
2: What materials can be processed in this mill?
It can process a variety of materials, including metals, ceramics, polymers, and biological samples, making it ideal for research and development in nanotechnology.
3: How does the Nano-scale Planetary Ball Mill work?
It works by rotating grinding jars at high speeds, which causes the balls inside to impact and grind the material, reducing it to nano-scale particles.
4: What is the size range for nanoparticles?
The mill can reduce particle sizes down to the nano-meter scale, typically ranging from 1 nm to 100 nm, depending on the material and milling time.
5: Is it suitable for small-scale experiments?
Yes, it is ideal for small-scale experiments, providing precise control over the milling process to achieve fine and uniform results.
6: What is a Nano-scale Planetary Ball Mill?
A Nano-scale Planetary Ball Mill is a high-energy milling system specifically designed to grind materials down to the nanometer range. It is widely used in advanced research and material science for producing ultra-fine powders and nanoparticles.
7: What makes this mill suitable for nano-scale grinding?
Its powerful centrifugal forces and rapid rotation of grinding jars provide intense impact and friction, enabling particle size reduction to below 100 nanometers. The precise control of speed and time ensures reproducible nano-level results.
8: What applications require nano-scale milling?
Applications include nanomaterials synthesis, battery material preparation, catalyst development, pharmaceuticals, ceramics, and advanced composites where ultra-fine particle sizes are critical for performance.
9: What types of grinding media are recommended for nano-scale milling?
High-density and contamination-free media such as zirconia, tungsten carbide, or agate are commonly used to achieve efficient nano-grinding without affecting sample purity.
10: How can overheating be prevented during nano-scale milling?
Overheating can be minimized using intermittent milling cycles, built-in cooling systems, or by selecting jars with thermal insulation. Proper speed settings and milling durations also help manage heat generation effectively.
