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Condense “laboratory-grade ultrafine powder preparation” into the footprint of a desk—start once, obtain four perfectly parallel samples under vacuum, atmosphere or ambient pressure, all as quietly as a library and as efficiently as a production line.
Conventional ball mills are bulky, noisy and dusty. ACQXM-4 shatters these preconceptions:
• Vertical semi-circular body shaped like a standing space capsule occupies <0.35 m² and slips straight into a fume hood.
• Planetary motion superimposed on jar rotation creates a 3-D shear + high-frequency impact energy field, reducing zirconia to <0.1 µm in 30 min.
• Four symmetric stations yield four matched samples in one run, giving your statistics the power they deserve.
• Interchangeable 50–500 mL vacuum jars allow one-touch evacuation or inert-gas back-fill for contamination-free grinding of air-sensitive materials.
• Exterior: monobloc aerospace aluminum CNC-machined and anodized; 270° panoramic window keeps the process visible at a glance.
• Interface: 7-inch touch screen with 20 built-in process curves; USB export for seamless LIMS integration.
• Versatility: swap among agate, zirconia, tungsten carbide or PTFE jars—dry, wet or inert atmosphere at will.
• Cleanability: tool-free jar cradle removal in 30 s; rounded corners and seamless welds satisfy GMP mindset.
• New Energy: nano-sized LiCoO₂, LiFePO₄, Si-C anodes and solid-state electrolytes.
• Electronic Ceramics: MLCC-grade BaTiO₃, high-thermal-conductivity AlN, microwave dielectric powders.
• Magnetic Materials: narrow-distribution Ni-Zn/Mn-Zn ferrites and SmCo permanent-magnet powders.
• Biomedical: hydroxyapatite and β-TCP bone-repair powders with controllable <100 nm size.
• Environmental Catalysis: TiO₂ photocatalysts and rare-earth-doped VOC-abatement powders.
• Everything Else: phosphors, rare-earth polishing powders, ZnO varistors, fuel-cell powders—any application demanding ultrafine, uniform and contamination-free particles.
