Labzee offers the Nano-scale Planetary Ball Mill designed for ultra-fine grinding and precise particle size reduction in nanomaterial research. It features high-speed rotation, multiple grinding stations, and advanced control systems for maintaining optimal grinding conditions. This ball mill is compatible with various jar materials and sizes, allowing for both wet and dry milling. Its low noise and vibration operation ensure a consistent performance, ideal for sensitive and demanding applications. The mill's compact design and advanced technology make it perfect for laboratories focusing on nanotechnology and material science. Our Nano-scale Planetary Ball Mills support applications such as nanomaterial synthesis, nano-coating, battery material development, advanced ceramics research, and surface treatment studies.
Grinding Jar Size
Vacuum Jar Size
Sun Wheel Speed
Ball Mill Jar Speed
Power
Frequently Asked Questions
1: 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.
2: 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.
3: 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.
4: 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.
5: 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.
