Temperature-Controlled Planetary Ball Mill BZPBM-501 is a versatile and efficient solution for ultra-fine grinding and mixing of soft, hard, brittle, and fibrous materials. It supports both dry and wet grinding, with programmable settings and automatic reverse rotation to prevent agglomeration. This device is designed for continuous use and features a cooling ventilation system, easy-to-clean components, and a user-friendly interface. Its planetary motion generates high-impact forces that enable rapid and effective particle size reduction. Our Temperature-Controlled Planetary Ball Mill BZPBM-501 precise and consistent performance makes it ideal for laboratories and applications demanding reliable, reproducible results.
$14,017.00
| Feed size | < 10 mm |
| Final fineness | < 0.1 μm |
| Speed | 100 to 650 rpm |
| Speed ratio | 1: -2 |
| Time setting | 0 to 999 min (cycle times 01 to 99) |
| Effective sun wheel diameter | 260 mm |
| Display | LED 7-inch display |
| Rated power | 750 W |
| Power supply | 220 V, 50/60 Hz |
| Product Dimension | 685 × 510 × 506 mm |
| Package Dimension | 785 × 900 × 780 mm |
| Net Weight | 125 Kg |
| Gross Weight | 145 Kg |
Temperature control module × 1 piece
Argon/vacuum atmosphere kit × 1 piece
Jar wrench × 1 piece
O-ring × 1 piece
The Temperature-Controlled Planetary Ball Mill BZPBM-501 is suitable for ultra-fine grinding of soft, hard, brittle, and fibrous materials. It supports applications in engineering, geology, chemicals, pharmaceuticals, agriculture, environment, and ceramics. Typical samples include ores, cement, plant material, polymers, catalysts, glass, coal, and electronic waste.
Frequently Asked Questions
1: What is a Temperature-Controlled Planetary Ball Mill?
A Temperature-Controlled Planetary Ball Mill is a machine that combines high-energy milling with precise temperature control, allowing for material processing under regulated thermal conditions.
2: How does the temperature control work?
The mill is equipped with a cooling or heating system that maintains a consistent temperature in the jars during the milling process, ensuring temperature-sensitive materials are processed effectively.
3: Why is temperature control important in ball milling?
Temperature control prevents overheating or cooling of sensitive materials during milling, which helps to preserve the integrity of heat-sensitive compounds and achieve desired results.
4: What materials can be processed in a Temperature-Controlled Planetary Ball Mill?
It can process a wide range of materials, including metals, polymers, ceramics, and pharmaceuticals. It’s ideal for temperature-sensitive samples.
5: What is the typical temperature range?
The temperature range typically varies from -10°C to 100°C, depending on the model and the cooling/heating system used in the ball mill.
6: What is a Temperature-Controlled Planetary Ball Mill?
A Temperature-Controlled Planetary Ball Mill is a high-precision grinding system equipped with a built-in temperature control mechanism. It enables regulated heating or cooling during milling to maintain sample integrity and enhance reaction efficiency.
7: Why is temperature control important in planetary ball milling?
Controlling temperature prevents overheating, which can degrade heat-sensitive materials, alter chemical reactions, or affect particle size. It also enables temperature-dependent synthesis and material modifications.
8: How is temperature regulated in this Planetary Ball Mill?
Temperature is regulated through integrated systems such as water circulation, cooling fans, or built-in heating elements. Users can set and monitor the temperature to match specific processing needs.
9: What types of materials benefit from temperature-controlled milling?
Materials like polymers, pharmaceuticals, composites, and reactive powders benefit greatly from temperature control to avoid decomposition, maintain uniformity, or trigger controlled phase transformations.
10: Can both heating and cooling be achieved in this machine?
Yes, most Temperature-Controlled Planetary Ball Mills support both heating and cooling functions, allowing precise thermal management across a wide range of materials and applications.
