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상세 정보 |
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| 제품명: | 실험실 진동 공 공장 | 모델번호: | ZM-2 |
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| 전압: | 380V | 힘: | 1.1kw |
| 총량: | 2L | 최대 용량: | 1L |
| 강조하다: | Tencan ZM-2 vibratory ball mill,high-frequency grinding ball mill,5L capacity vibrating ball mill |
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제품 설명
TENCAN ZM-2 Laboratory Vibratory Ball Mill – High-Frequency Grinding System (0.5–5 L)
Product Overview
The TENCAN ZM-2 Laboratory Vibratory Ball Mill, also known as a vibration mill, is a high-efficiency powder processing system designed for rapid micron- and sub-micron grinding. It is available in single-, double-, and triple-cylinder configurations, offering flexibility for laboratory research, pilot testing, and small-batch production.
The system supports both dry and wet grinding and operates in a fully enclosed, pollution-free environment, ensuring clean processing and material integrity. Multiple liner and cylinder material options are available to meet the requirements of different sample properties and industry standards.
Working Principle
The vibrating ball mill consists of a reinforced frame, heavy-duty base, precision vibration exciter, grinding cylinder assembly, damping springs, and a high-torque motor. During operation, the motor drives an eccentric vibrator to generate high-frequency oscillatory motion, typically at 800–3000 rpm, producing micro-amplitude vibrations within the grinding chamber.
This vibration induces complex three-dimensional movement of the grinding media, generating intense impact, shear, and friction forces. Material size reduction is achieved through continuous high-energy collisions, efficient surface abrasion, and uniform particle dispersion, resulting in rapid and consistent ultrafine grinding.
Applications
The ZM-2 laboratory vibratory ball mill is widely used across multiple industries, including:
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Advanced Electronics: MLCC dielectric powders, ferrite materials
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Ceramic Engineering: Technical ceramics, structural and functional ceramics
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Chemical Processing: Catalysts, inorganic pigments
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Powder Metallurgy: Tungsten carbide, metal alloy powders
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Pharmaceuticals: API micronization, drug delivery materials
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Specialty Materials: Quantum dots, graphene composites, battery materials
It is especially suitable for materials requiring short grinding time, high fineness, and uniform particle size distribution.
Key Features
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High Processing Efficiency: Throughput 3–5 times higher than conventional ball mills
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Precise Particle Size Control: Adjustable vibration frequency and amplitude
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Effective Temperature Management: Optional jacketed cylinder for thermal control
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Continuous or Batch Operation: Adaptable for different production modes
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User-Friendly Design: Simple operation, low maintenance, robust structure
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Environmentally Friendly: Fully enclosed system prevents dust and contamination
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Compact Footprint: Vertical layout saves laboratory space
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Custom Configurations: Available for GMP, ATEX, and special application requirements
Cylinder & Liner Material Options
To meet different material and industry requirements, the grinding cylinders and liners can be selected from:
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304 / 316L stainless steel
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High-purity alumina ceramic (99.5% Al₂O₃)
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Yttria-stabilized zirconia (3Y / 5Y-ZrO₂)
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Engineering plastics (nylon, PTFE)
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Food-grade polyurethane, PP, PE
Technical Parameters of Tencan Lab Vibrating Ball Mill
| Technical Parameters of Lab Vibrating Ball Mill | ||||||
| Model No. | Total Volume | Max Load Volume | Power Supply | Available Barrel | Feed Size | Output Granularity |
| ZM-1 | 1L | 0.50L | 380V/1.1KW | Stainless Steel Nylon Corundum PTFE |
≤5mm | ≤1μm |
| ZM-2 | 2L | 1.00L | 380V/1.1KW | ≤5mm | ≤1μm | |
| ZM-3 | 3L | 1.50L | 380V/1.1KW | ≤5mm | ≤1μm | |
| ZM-5 | 5L | 2.50L | 380V/1.1KW | ≤5mm | ≤1μm | |
Available Mill Jars: Stainless steel mill jar, alumina ceramic mill jar, Zirconia mill jar, agate mill jar, tungsten carbide mill jar, PU mill jar, nylon mill jar, PTFE mill jar, and etc.
| 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 | |||||
| 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 | |||||