Name: ECS-FS High-Throughput Nano High-Energy Vibratory Ball Mill (1800 rpm, 12*10 mL), EFSHTNOHEVBM
Brand: FKS
SKU: EFSHTNOHEVBM

ECS-FS High-Throughput Nano High-Energy Vibratory Ball Mill (1800 rpm, 12*10 mL), EFSHTNOHEVBM

In Stock SKU: EFSHTNOHEVBM

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To achieve true nanosize-output, a high-energy vibratory ball mill must operate at significantly higher frequencies than standard mixers. For research in advanced battery electrodes or solid electrolytes, these mills are used to reduce particles from micrometer scales down to the 10–100 nm range through intensive impact and friction.

In a high-energy vibratory mill, the jar undergoes high-frequency, small-amplitude oscillations. This creates a "chaotic" movement of the grinding media, where the balls strike each other and the jar walls with high kinetic energy (Ek = 1/2mv^2). (1) Impact Force: Breaks down brittle crystalline structures. (2) Shear Force: Essential for exfoliating layered materials (like graphite) and refining particle size. (3) Mechanochemical Activation: The energy is often high enough to trigger chemical reactions or phase changes at the surface of the particles.

To reach the nanometer scale, the system must be optimized far beyond standard "mixing" protocols:

Grinding Media (Balls): It is highly recommended to use micro-media (0.1 mm to 1.0 mm) for the final stages. Smaller balls provide a much higher frequency of contact points per volume. Normally Yttrium-stabilized Zirconia (YSZ) is the gold standard due to its high density (6.0 g/cm3) and extreme wear resistance, preventing sample contamination.
Frequency and Amplitude: High-energy units typically operate at 30–60 Hz (1,800–3,600 RPM). Amplitude: Usually set between 1–10 mm. For nanosizing, a smaller amplitude at a higher frequency is often more effective at generating the necessary shear.
Slurry vs. Dry Milling: Wet milling is highly recommended for nanosizing. Using a solvent (ethanol, NMP, or DI water) prevents particle agglomeration (where small particles stick back together due to Van der Waals forces).

Part Number	EFSHTNOHEVBM (EFS-HTNOHEVBM)
Power	AC110 or 220V±10%, single phase, 50/60Hz, 750 W
Milling Features	Vibratory grinding/milling/mixing Both dry/wet milling can be operated High-Frequency vibration in horizontal arc shape back and forth Milling jar vibration frequency: Max. 1800 rpm (adjustable). Milling time: 10-60 s
Milling Jar (Optional) Features	Jar Volume: Max. 10 mL/each (maximum jar numbers are 12). The maximum processing capacity is 120 mL. The smaller jars, such as 2 mL and 5 mL, are also available upon request. Jar Materials: Stainless Steel, Nylon, PTFE, Zirconia, Tungsten Carbide. (The milling jars are not included in the standard package and please purchase it as accessories additionally. Milling balls in 1-30 mm. Standard Milling Jars EFSAHTNOHEVBMMJ10
Particle Features	Max size of feeding powder: < 10 mm Output Power size after milling: ~100 nm
Certification	CE certified UL and CSA certification is available upon request at extra cost
Dimension	L680 * W540 * H320 mm
Weight	~98 kg

References:

T.P. Yadav, et al., Synthesis of nanocrystalline cerium oxide by high energy ball milling, Ceramics International, 2012, 38, 5783-5789

A I Gusev, et al., High-energy ball milling of nonstoichiometric compounds, Phys.-Usp., 2020, 63, 342

ECS-FS High-Throughput Nano High-Energy Vibratory Ball Mill (1800 rpm, 12*10 mL), EFSHTNOHEVBM

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