What is Conductive PoM
Conductive POM refers to the addition of conductive fillers to polyoxymethylene (POM) materials to give POM conductive properties. POM is an excellent engineering plastic with high hardness, excellent wear resistance, low coefficient of friction and excellent mechanical properties. By adding conductive fillers such as carbon black, metal fibers, or carbon nanotubes to the POM, a conductive network can be formed to give the POM conductive properties. Conductive POMs are typically used in applications that require both conductive and mechanical properties. Conductive POM is widely used in the field of electronics. For example, it can be used to manufacture electronic components and connectors with antistatic properties to prevent damage to electronic devices by static electricity. In addition, conductive POM can also be applied to automation equipment, electrical engineering and other fields to meet specific conductive requirements.
What is a conductive pom.
Conductive POM is a conductive polyoxymethylene (polyformaldehyde) thermoplastic crystalline polymer, commonly known as Saigang, also known as polyoxymethylene. This material has a high resistance to creep and stress relaxation, excellent wear resistance, self-lubrication and fatigue resistance, and its resistance to solvents, oils, weak acids, weak alkalis and other properties is also very good. POM is widely used to replace various metal alloys in the production of automobiles, mechanical instruments, agricultural machinery, and chemical parts, such as gears, cams, bearings, bushings, gaskets, valves, liquid transportation pipelines, handles, and chemical melters.
In addition to POM, what other materials can be used to replace various metal alloys?
In addition to polyoxymethylene (POM), the following materials can be used in place of various metal alloys:
1.Engineering plastics: such as nylon, polycarbonate, polyetheretherketone, etc., with good mechanical properties and wear resistance, can be used to manufacture mechanical parts, automotive parts, etc.
2.Composite materials: such as carbon fiber reinforced plastics, glass fiber reinforced plastics, etc., which have the advantages of high strength, low density, corrosion resistance, etc., and can be used to manufacture aerospace, automobiles, sporting goods, etc.
3.Ceramic materials: such as alumina, zirconia, etc., with high hardness, high wear resistance, high temperature stability and other advantages, can be used to manufacture knives, bearings, seals, etc.
4.Rubber materials: such as nitrile rubber, fluoroelastomer, etc., which have good elasticity and wear resistance, and can be used to manufacture seals, conveyor belts, etc.
5.Metal alloy alternatives: such as titanium alloys, magnesium alloys, etc., which have the advantages of low density, high strength, and good corrosion resistance, and can be used to manufacture aerospace, automobiles, medical devices, etc.