Pingxiang Chemshun Ceramics Co.,Ltd

  Chemshun Wear  resistant alumina ceramic pipe   play an important role in modern industry, and their unique properties make them widely used in many fields. The following is a detailed analysis of the application of wear-resistant alumina ceramic tubes: 1. Features and advantages 1. High hardness and wear resistance: Alumina ceramic tubes have high hardness and excellent wear resistance. They can operate stably for a long time in harsh working environments, reducing equipment failures and downtime caused by wear. 2. High temperature resistance: Alumina ceramic tubes have good high temperature resistance, can maintain stable physical and chemical properties in high temperature environments, and are suitable for high temperature process flows. 3. Corrosion resistance: Its excellent chemical stability enables alumina ceramic tubes to resist erosion by a variety of corrosive media and extend the service life of the pipeline. 4. High density: Wear-resistant alumina ceramic tubes produced

Pulley Lagging Ceramics, also known as pulley lining ceramics or pulley protection ceramics, is a specially designed ceramic material mainly used to improve the wear resistance, impact resistance and skid resistance of pulley systems. This type of ceramic material is usually made of high-hardness and high-strength materials such as alumina to cope with the harsh working conditions of pulley systems in industrial environments. Main features 1. Wear resistance: Pulley Lagging Ceramics has extremely high wear resistance, which can significantly reduce the wear of pulley systems and extend their service life. This is mainly due to its high hardness and high mechanical strength. 2. Impact resistance: This ceramic material also has excellent impact resistance and can withstand heavy loads and impacts without being easily damaged. 3. Skid resistance: By optimizing the surface design and material selection, Pulley Lagging Ceramics can provide excellent skid resistance, ensuring the stability

The amount of random   tower  packing used needs to be calculated based on the specific size of the cooling tower  or container, the specifications of the packing, and the stacking density. The following is a clear, point-by-point calculation step and summary: 1. Determine the container size: Common container shapes include : rectangular, cylindrical, spherical, and the volume calculation method for containers of different shapes is different. 2 Determine the packing specifications and stacking density 1)  Determine the specifications of the random packing used. The sizes of the conventional random packing of Chemshun   Ceramics Co., Ltd. are 16mm, 25mm, 38mm, etc. 2) Find the corresponding stacking density (kg/m ³ ) according to the specifications of the packing. For example, the packing density of a ceramic ball ring may be as follows: - 16mm ceramic ball ring: 800kg/m³ - 25mm ceramic ball ring: 700kg/m³ 3. Calculating the amount of packing 1). Use the following formula to calculate