The rotary electrode pulverization method
The rotary electrode pulverization method is a well-known method for generating nanoparticles for applications in a variety of industries. This method uses electric power to break down large particles of solid material into small particles. It is also known as electrodisintegration milling, or EDM grinding. In this method, a wheel-shaped electrode is rotated by electric current, which then pulverizes the material.
The process starts with the selection of the material. This selection depends on the particle size of the product to be generated. The particle size is determined by the geometry and size of the wheel-shaped electrode used. The wheel must be perfectly round and precisely machined so that it can deliver uniform pulverization of the material.
Once the material is selected, the wheel-shaped electrode is mounted on a conductive shaft. The shaft is rotated with an electric motor, or an air turbine, while the wheel is supplied with electric current. This process causes the wheel to break down the material into fine particles. The particle size is determined purely by the wheel size.
The method is useful for materials that are not affected by heat. It is also commonly used to produce nanoparticles for applications such as drug delivery, environmental remediation and other industrial processes.
The method does not require the use of solvents and is therefore safer and more environmentally friendly than other methods. It can also help reduce energy consumption and costs. Furthermore, the process does not generate wastes that need to be disposed.
The rotary electrode pulverization method is relatively straightforward and does not require high levels of skill to perform. It is suitable for a wide range of materials and offers high-precision size control. The wide variety of materials that can be processed makes it suitable for many different industries.
In summary, the rotary electrode pulverization method is a well-known method for generating nanoparticles for applications in a variety of industries. This method uses electric power to break down large particles of solid material into small particles. It is a relatively straightforward process that does not require high levels of skill and offers high-precision size control. The method can also help reduce energy consumption and costs and does not generate wastes. It is therefore an environmentally friendly method for generating nanoparticles for various applications.
