Planetary Ball Milling

General remarks

Selection of the milling media

Milling media refers to the milling balls, the milling jar and the liquid. Typical jar/ball materials are polymer (jar only), glass, alumina, zirconia, and tungsten carbite. The material of the milling balls and jar should be selected along the following lines:

• Hardness: The balls and jar should be harder then the powder that is to be milled to reduce contamination by wear.
• Chemical compatibility: Some abrasion will occur in any case. If the jar/ball material is compatible with the powder, this is not an issue.
• Size: The size of the milling jar can be selected according to the required quantity. In genreal, larger batches (>50g) are more reliable than smaller batches (e.g. 20g).

After the material is selected, the size of the balls needs to be selected. In general, smaller balls result in a higher engery input during milling (also a higher temperature during milling!) and a finer milling result. Finally, the liquid for the suspension needs to be selected. The important question is the chemical compatibility with the powder. Some materials have some solubility in water, so that a water-free liquid is needed (iso-propanol or better n-heptane). If water is used, it should be de-ionized to reduce contamination with cations.

Filling the milling jars

Milling procedure

Separating the slurry

Use a very clean sieve (sieves are a source of contamination) and a wide and clean glass beaker to separate the slurry and balls. The finer the balls are, the more slurry and powder remains in the balls. To a ceratin amount, it can be drained with additional liquid. If the balls are smaller than 2mm, it is best to use a technical sieve with 150µm mesh. Using a funnel and a glas bottle with vacuum adapter all with appropriate sealing will ease the procedure and minimize the amount of solvent needed to separate the slurry.

Drying

The glass beaker is covered with aluminium foil with a number (10-30) holes to allow evaporation of the liquid. The beaker then can be dried in a laboratory oven at a temperature below the boiling temperature of the liquid. Boiling should be prevented as it can cause contamination of the oven. If the liquid is flammable, the drying stove should be explosion protected and the lab well-vented. Drying usually takes at least one day.

Sieving

As after drying, the powder is usually agglomerated, it should be sieved once it is completely dry. Avoid sieving slightly humid powder.