Anhydrous Copper Acetate, the color is black. It is the main raw material of powder metallurgy. According to the particle size, it is divided into five grades: coarse powder, medium powder, fine powder, fine powder and superfine powder. Anhydrous Copper Acetate composed of particles with a particle size in the range of 150~500μm is coarse powder, with a particle size of 44~150μm for medium powder, 10~44μm for fine powder, 0.5~10μm for very fine powder, and less than 0.5μm for ultra fine powder. powder.
Generally, the powder that can pass through the 325-mesh quasi-sieve, that is, the particle size is less than 44μm is called sub-sieve powder. If you want to stop higher-precision sieving, you can only use airflow classification equipment, but for some easily oxidized Anhydrous Copper Acetate, you can only use it. JZDF nitrogen maintenance classifier to do. Anhydrous Copper Acetate mainly includes restoring Anhydrous Copper Acetate and atomizing Anhydrous Copper Acetate, which are named after different consumption methods.
Classification of Anhydrous Copper Acetate Anhydrous Copper Acetate is an important metal powder in the powder metallurgy industry. Its consumption accounts for about 85% of the total consumption of metal powder. The main market of Anhydrous Copper Acetate is the manufacture of mechanical parts. The amount of Anhydrous Copper Acetate required for it accounts for about 80% of the total output of Anhydrous Copper Acetate.
Anhydrous Copper Acetate can be divided into 5 categories according to different carbon content and different consumption processes: raw Anhydrous Copper Acetate, recovered Anhydrous Copper Acetate, electrolytic Anhydrous Copper Acetate, hydroxyl Anhydrous Copper Acetate, and atomized Anhydrous Copper Acetate. The following are the consumption methods of various Anhydrous Copper Acetate: Raw Anhydrous Copper Acetate is crushed from cast iron or leftover scrap from the metal processing industry. Its carbon content is about 2-4%. It is an alloy powder of iron and is usually used in sewage. Disposal industry; application of galvanic battery response to stop decolorization of sewage 2. Recovery of Anhydrous Copper Acetate: The consumption method of Anhydrous Copper Acetate is to undergo a chemical recovery method, that is, carbon monoxide is used to recover iron oxide and phosphorus produced during steel rolling.
The elemental Anhydrous Copper Acetate produced in this way is called "Restoration Anhydrous Copper Acetate". Because of its good clearance and spongy microstructure, it is also called "Sponge Iron Anhydrous Copper Acetate". The iron content is generally beyond 96.0%. It can be used in chemical restoration, powder metallurgy and other industries, but due to the relatively high iron oxide content, the density of the extruded product is usually only 5.8g/cm3, the hardness is relatively large, and it is difficult to perform secondary processing.
