0.2L Super Mini Lab Ball Milling Machine for Glove Box Inside Using CE Standard

Compact Glove Box-Compatible Planetary Ball Mill (0.2L Capacity)

The XQM-0.2S ultra-compact planetary ball mill is specifically engineered for nano-powder processing within controlled glove box environments, making it ideal for air-sensitive materials requiring inert gas (Ar/N₂) or moisture-free conditions. This specialized system enables precision grinding, powder mixing, and nanomaterial synthesis for R&D labs, universities, and high-tech industries.

Key Features

• Glove Box Integration: Compact design (optimized for limited-space glove boxes) processes materials under oxygen-free, water-free atmospheres

• Multi-Sample Processing: Four-position planetary motion allows simultaneous grinding of up to four samples (50ml jars max)

• Vacuum Compatibility: Optional vacuum milling jars for pressure-sensitive materials

• High-Efficiency Grinding: Achieves nanoscale particle sizes (<100nm) with controlled mechanical alloying

• Low-Noise & Compact: Minimal vibration and small footprint suit confined glove box workspaces

Applications

• Battery Materials: Li-ion anode/cathode powders, solid electrolytes

• Metal-Organic Frameworks (MOFs): Air-sensitive coordination polymers

• Reactive Alloys: Lithium, sodium, and other alkali metal compounds

• Advanced Ceramics: Oxygen-sensitive precursors for superconductors or catalysts

Designed for high-purity nanomaterial research, this mill ensures reproducible results while maintaining strict inert conditions—critical for next-gen material development.

Operating Principle of Compact Glove Box Ball Mill (0.2L Capacity)

The XQM-0.2S mini planetary ball mill employs advanced multi-axis grinding technology through its innovative four-position turntable design. This configuration accommodates either two or four milling jars (50ml capacity each), enabling parallel processing of multiple samples under identical conditions.

During operation, the system generates compound motion through:

1. Planetary Rotation: Each jar simultaneously revolves around its own axis while orbiting the central turntable axis

2. High-Speed Impact: Grinding media (balls) undergo violent collisions at speeds up to 650RPM

3. Shear Forces: Intense friction between particles and grinding surfaces

This dynamic action produces three synergistic size-reduction mechanisms:

• High-energy impact crushing

• Precise abrasive grinding

• Efficient particle-to-particle attrition

The mill achieves exceptional fineness (≤100nm) through:
✓ Adjustable rotation speed (50-650 RPM)
✓ Programmable run-time parameters
✓ Optional wet/dry processing modes
✓ Customizable grinding media selection

Specialized features for glove box operation include:
• Compact footprint (30×30×25cm)
• Low vibration transmission
• Inert gas compatible seals
• Moisture-proof electrical components

This refined mechanism enables reproducible nanomaterial synthesis while maintaining critical inert atmosphere conditions throughout the grinding process.

Compact 0.2L Glove Box Ball Mill for Sensitive Material Processing

The Tencan XQM-0.2S super mini laboratory ball mill is specifically engineered for operation inside glove boxes, enabling safe processing of air-sensitive and reactive materials under vacuum or inert gas atmospheres. This specialized equipment significantly expands research capabilities for materials that cannot be processed in normal air conditions.

With its compact design, this ball mill finds extensive applications across multiple industries including:

• Advanced materials research (nano materials, piezoelectric ceramics, dielectric ceramics)

• Electronics industry (MLCC capacitors, thermistors, varistors)

• Energy sector (lithium battery materials, fuel cell components)

• Specialty ceramics (alumina, zirconia, structural and electronic ceramics)

• Functional materials (phosphors, magnetic materials, rare earth compounds)

The system is particularly valuable for processing sensitive materials such as:

• Lithium cobalt oxide and lithium manganese oxide for battery applications

• Zinc oxide-based varistors and electronic glass materials

• High-performance ceramics including wafer ceramic capacitors

• Magnetic materials like Ni-Zn ferrite and Mn-Zn ferrite

• Rare earth compounds including polishing powders and long-afterglow phosphors

This glove-box compatible mill opens new possibilities in materials science by allowing researchers to work with oxygen-sensitive compounds, moisture-reactive substances, and other specialized materials that require controlled atmosphere processing. Its applications span from fundamental research to industrial production in fields such as electronics, energy storage, catalysis, and advanced ceramics manufacturing.

The equipment's ability to maintain an inert environment during grinding makes it indispensable for developing next-generation materials where purity and controlled processing conditions are critical.

Compact Glove Box Ball Mill with Advanced Grinding Capabilities

The 0.2L laboratory ball mill is specially designed for glove box operation, enabling precise grinding of sensitive materials under inert or vacuum conditions. Its planetary ball milling mechanism ensures high-energy impacts for ultrafine, uniform particle sizes with excellent repeatability.

Key Features:

• Precision Speed Control: Equipped with a variable-frequency drive, allowing adjustable rotation speeds for optimized grinding results, complete with over-current and voltage protection.

• Multi-Sample Processing: Simultaneously grinds four different samples of varying materials and sizes, improving lab efficiency.

• Programmable Operation: Offers timed shutdown, automatic forward/reverse rotation, and customizable modes (continuous, alternating, or intermittent) for enhanced grinding performance.

• Compact & Stable Design: Low center of gravity, noise-reduced operation, and a small footprint make it ideal for confined glove box environments.

• Safety & Reliability: Features secure motor protection and a robust structure for long-term, stable operation.

Ideal for battery materials, ceramics, nanomaterials, and reactive compounds, this mill combines high efficiency, versatility, and safety for advanced material research in controlled atmospheres.

Key Differences from Original:

• Reorganized structure (grouped features logically)

• Simplified technical details (e.g., less emphasis on planetary mechanics)

• Added broader applications (e.g., nanomaterials)

• More concise phrasing while retaining core functionality

• Omitted specific model references (XQM-2S)

Technical Parameters of 0.2L Super Mini Laboratory Ball Mill Designed To Be Used Inside Glove Box

Compatible Milling Accessories for 0.2L Laboratory Ball Mill

To enhance your grinding applications, we offer a range of high-quality milling jars and grinding media options:

Mill Jar Materials:

• Metal options: Stainless steel, tungsten carbide

• Ceramic choices: Zirconia, alumina

• Polymer alternatives: Nylon, polyurethane (PU)

Grinding Media Selection:

• Dense metal balls: Stainless steel, tungsten

• Ceramic spheres: Zirconia, alumina

• Polymer balls: PU varieties

These accessories allow for customized material processing while maintaining compatibility with glove box operations. The selection covers various hardness and contamination requirements, suitable for processing sensitive materials in research and production environments.

All components are precision-engineered to work seamlessly with the 0.2L ball mill system, ensuring optimal grinding performance for different material types and applications.

Complete Range of Grinding Media Solutions

We offer an extensive selection of premium grinding balls to meet all your milling needs:

Material Options Include:

• Metal Varieties: Stainless steel, tungsten, manganese steel, and high-wear-resistant steel balls

• Ceramic Choices: Zirconia, alumina, silicon nitride, and agate balls

• Specialized Options: PU, nylon, cemented carbide, and crystal glass balls

Our comprehensive collection features:
✓ Precision-engineered spherical grinding media
✓ Multiple hardness grades for different applications
✓ Contamination-free ceramic options
✓ Special materials for unique processing requirements

All grinding balls are designed for optimal performance in laboratory ball mills, ensuring efficient particle size reduction while maintaining material purity. Whether you require high-impact metal balls for tough materials or gentle polymer options for sensitive compounds, we have the perfect grinding solution for your research or production needs.