The company's silicon carbide shaping equipment with independent intellectual property rights produces high-density silicon carbide with high purity, high activity, smooth surface, good shape, concentrated particle size distribution, and easy infiltration. It is widely used in chemical industry, metallurgy, wear-resistant industry, ceramics, industrial high-temperature kiln and other industries.

      In powder engineering, mechanical grinding is mainly used for crushing powder, and the grinding and crushing force used for powder shaping should not be too strong, otherwise the powder particles will be broken, resulting in particle shaping failure. By adjusting the grinding process parameters, the silicon carbide powder particles undergo soft friction in the mill, and the irregular parts of the particles are ground away.

      According to the analysis of the picture on the right, it can be seen that the crushing effect on powder particles is basically in the form of falling and throwing. Therefore, when using this method to reshape particles, the crushing effect of the equipment on the material particles should be as little as possible, and the grinding media and silicon carbide should be added. The grinding effect between powder particles achieves the shaping of silicon carbide powder particles in this way.

      Research shows that the application of mechanical grinding process to shape powder is affected by the following process parameters: the rotation speed of the mill,the filling of grinding media, the ratio of grinding media to materials, the size of grinding media, the solid content of the slurry and grinding time, etc. The entire process is adjusted by adjusting various process parame. ters to ensure that the powder particles are not broken on the one hand, and on the other hand, the irregular parts of the silicon carbide powder particles are slowly ground away through grinding.