Tungsten carbide peg is a rod-type sand mill, a vertical rod-type sand mill, a rod-type sand mill, and one of the common accessories for the nano-sand mill. It is suitable for grinding from different micrometers to nanometers, and the dispersion is improved. Grinding
effect.
It is mainly used for grinding various liquid pastes such as paints, inks, porcelains, dyes, plastics, etc. It is especially
suitable for high viscosity, small batch materials and grinding materials that are difficult to recycle or resistant to
circulating materials, such as various colors. Pulp, ink, etc.
Item | Information |
Material | Tungsten carbide |
Surface Treatment | Finished, polished |
Density | 14.6g/cm3 |
Temperature | -100~1000ºC |
Hardness | 89.5-90.5 HRA |
Acil and alkali resistant | Yes |
Low Temperature resistant | Yes |
High Temperature resistant | Yes |
Certification | ISO9001:2018 |
TRS | 1800-2100N/mm⊃2; |
Application | oil paint , coatings,synthetic resin coatings,printing inks , fiver dyes etc |
Feature | customized sizes ,high hardness , long working life |
Product feature of Horizontal Sand Mill Tungsten Carbide Pegs
1. Heat resistant; very good wear resistant
2. High hardness
3. High hardness and impact toughness, chemical stability.
4. Long life time
5. Easy operation
Product working principle of Horizontal Sand Mill Tungsten Carbide Peg
It has intensive friction and controlled planetary ball mill movements allow for excellent grinding performance. This unique combination is generated by the oval shape and the movement of the grinding jars. The grinding jar supports are mounted on two discs respectively which turn in the same direction. The jars move on a course without changing their orientation. The shape of jar and it movement causes strong friction between grinding balls, Material and jar inner walls as well as a rapid acceleration which lets the balls impact with great force on the sample at the rounded ends of the jars. This significantly improves the mixing of the particles resulting in smaller grind sizes and a narrower particle size distribution than has been possible to achieve in ball mills so far