The choice of milling jar material is a critical variable. For high-precision components for pouch cell fabrication, selecting a material with the correct hardness and chemical resistance is essential to prevent contamination from "wear debris.

The options of milling jar materials are shown below:

(1) Zirconia (ZrO2): Zirconia is the most popular choice for lithium-ion battery R&D (NCM, LFP, Graphite).

(2) Alumina (Al2O3): Alumina is often used for the materials science side of your work, particularly for SOFC/SOEC components.

(3) Stainless Steel (SUS304/316): SS is a standard and economical option, but cross-contamination is a big risk for battery material milling.

(4) Agate (Natural Quartz): It is featured as "Zero Metallic Contamination" since Agate is a natural, non-metallic material preferred for ultra-pure chemical synthesis.

(5) Tungsten Carbide (WC): It is normally used when maximum impact energy is required.

References:

L. L. Driscoll, et al., Under pressure: offering fundamental insight into structural changes on ball milling battery materials, Energy Environ. Sci., 2023,16, 5196-5209

C. Welch, et al., Modeling Analysis of Ball-Milling Process for Battery-Electrode Synthesis, Chem. Mater. 2024, 36, 14, 6748–6764

C. Wall, et al., Production of nanocrystalline lithium fluoride by planetary ball-milling, Powder Technology, 2014, 264, 409-417.