Is a necessary device of high-tech materials mixing, fine grinding, sample making, new product development and small batch production. Tencan planetary ball mill owns small volume, high efficiency, low noise and functional features which is a ideal equipment for R&D institution, university, enterprises laboratory to get samples (you can get four samples from each grinding batch). It is possible for you to grind powder samples under the vacuum state if the ball mill is loaded with vacuum mill jars.
Technical Features of Mini Planetary Ball Mill XQM-0.4A |
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Drive Mode | Gear Drive & Belt Drive |
Operation Model | Two or four mill jars can be used in each grinding |
Max Capacity | Less than 1/3 volume of each mill jar |
Feed Size of Grinding Materials | Soft & crispy material ≤ 100mm
Hard materials ≤ 3mm |
Output Final Particle Size | The smallest particle size can reach to 0.1μm |
Rotational Speed Ratio | 1/2 |
Max Continuous Running Time | 72 Hours |
Mode of Speed Control | Frequency Inverter |
Available Materials of Mill Jars |
Tungsten carbide, Agate, 304 Stainless steel, 316L Stainless steel, Corundum, Zirconia, Nylon, PU,
Alumina ceramic, PTFE, and etc. |
Vertical planetary ball mill often has four ball grinding jars installed on one turntable. When the turntable rotates, the jar axis makes planetary movements, the balls and samples inside the tanks are impacted strongly in high speed movement, and samples are eventually ground into powder. Various kinds of different materials can be ground by dry or wet grinding method. Smallest granularity of output powder can be achieved to be as small as 0.1μm by this kind of ball mill.
The ball mill shell is welded with thick steel plate, which has high strength, impact resistance, deformation resistance, fine workmanship, strong and beautiful appearance. The material of mechanic parts is strictly processed by heat treatment process and numerical control processing technology. The gear box is adopted with quasi-sealed groove embedded structure, and the drive gear is made of wear-resistant precision gear. The machine frame and structure are fully considered in design to ensure the stable, safe and reliable operation of the ball mill under long-term and high load conditions, and to effectively achieve the effect of noise reduction in the operation of the machine. With the touch screen of micro-computer, machine operation is becoming convenient, the interface is more simple and intuitive,forward and reversal alternating control can be achieved easily. It owns functions of timing and power-off memory.
1. Stable revolving speed of the gear transmission ensures the consistency and repeatability of the experiment.
2. Planetary movement principle is adopted in the machine, which has high speed, large energy, high efficiency, small Granularity.
3. Four powder samples from different sizes and different materials can be produced at one time.
4. The machine is controlled by frequency converter, you may choose ideal rotating speed according to expected experimental result. The converter is equipped with device of under voltage and over-current to protect the motor.
5. The planetary ball mill has functions of timing power off, self-timing forward and reversal rotating. You may choose freely any operation modes of one-way direction, alternation, succession, time setting according to experimental needs, so as to improve efficiency of grinding.
6. Technical features of Tencan Ball Mill: Low center of gravity, stable performance, compact structure, easy operation, reliable safety, lower noise, small loss.
7. Safety switch is installed on the machine to prevent safety accident if the safety cover is opened while machine is running.
Accessories
We provide all kinds of mill pots in any matched size, which are made from following materials of agate, Alumina corundum ceramics, zirconia ceramics, silicon nitride ceramics, carborundum ceramics, stainless steel, high wear resistant steel, manganese steel, nylon, PU, cemented carbide, crystal glass, and etc.
We can also provide all kinds of mill balls like stainless steel balls, zirconia balls, alumina balls, PU balls, steel carbon balls, tungsten balls, agate balls, hard metal balls, silicon nitride balls, high wear resistant steel ball, manganese steel balls, nylon balls, cemented carbide, crystal glass and other special metal materials.
Recommendation For Matching Solutions About Mill Jars & Materials | |
Categories of Materials | Recommended Mill Jars |
Soil and other Materials which are not allowed with any impurity | Agate mill jar |
Metal & nonmetal materials which are not allowed with any impurity | Zirconia mill jar |
High hardness materials like diamond, tungsten carbide | Tungsten carbide mill jar |
Strong add & alkali materials or other materials at high temperature | PTFE mill jar |
Iron ore materials with lower impurity sensitivity | 304 Stainless steel mill jar |
Pigment or other materials with later process under high temperature | Nylon mill jar |
Aluminum materials like ceramic glaze | Corundum mill jar |
Electronic materials like lithium battery | Polyurethane mill jar |
Easily oxidized materials or some special materials which need to be protected under special atmosphere. |
Vacuum mill jar |
References About Grinding Medias & Materials | ||
Materials of Grinding Media |
Hardness (Mohs) |
Features |
Zirconia Balls | ≥9.0 | Super wear-resistance, without any impurity, corrosion & high temperature resistance. |
Stainless Steel Balls | ≥6.0 | Wear-resistant, general corrsion resistance, high temperature resistance. |
Agate Balls | ≥7.0 | Super wear-resistance, used for medicine,food and other materials which can not be contaminated with metal, corrosion, and high temperature resistance. |
Alumina Balls | ≥8.5 | Wear-resistant, corrsion resistance and high temperature resistance. |
Tungsten Carbide Balls | ≥9.0 | Super wear-resistance, without any impurity, corrosion & high temperature resistance. |
Matching Solutions for Mill Jars & Balls |
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Items | Agate Balls | Alumina Balls | Stainless Steel Balls | Zirconia Balls | Tungsten Carbide Balls |
Agate Mill jar | √ | ||||
Corundum Mill Jar | ▲ | √ | ▲ | ||
Stainless Steel Mill Jar | √ | ||||
Zirconia Mill Jar | ▲ | √ | |||
Nylon Mill Jar | ▲ | √ | |||
PTFE Mill Jar | √ | ▲ | |||
Polyurethane Mill Jar | √ | ▲ | |||
Tungsten Carbide Mill Jar | ▲ | √ | |||
√ means: most suitable ▲ means: suitable |