INCHR@ESD POM (Delrin) Compound In-depth Insight
Material composition
INCHR@ESD POM (Delrin) compound is unique, with Delrin resin as the core base. It is derived from fine chemical synthesis and has excellent mechanical toughness and chemical resistance. A specific proportion of permanent antistatic agent 55K AN can build a stable charge conduction path inside the material, giving the material lasting antistatic ability. At the same time, it also provides optional ingredients such as glass fiber, flame retardant, and PTFE lubricant to lay a solid foundation for meeting diverse application needs, and is suitable for injection molding and extrusion molding.
Core performance highlights
- Excellent antistatic: The permanent antistatic performance of ESD compounds is unique, and its surface resistance is precisely controlled in the range of 10^7 – 10^8 Ohms/sq. In environments extremely sensitive to static electricity, such as electronic equipment manufacturing and semiconductor chip processing, it can efficiently dissipate the accumulation of natural charges, effectively avoid potential damage caused by static electricity, and effectively ensure the stability and reliability of equipment operation.
- Color customization: INCHR@ESD POM (Delrin) compounds give users a wealth of choices in color. In addition to the rustic natural color, classic black, and warm milky white, other colors can be customized according to specific project requirements, perfectly adapting to different product appearance design styles, and achieving a harmonious unity of beauty and function.
Subdivided advantages
- 510AN special advantages: 510AN is a fine product tailored for extruded sheets and rods with a low melt index. The low resistance value of about 10E7 Ohms makes it excellent in the field of anti-static, and it is unique in mechanical processing performance, easy to cut, drill, and other fine operations, so it is favored in the production of fixtures in the electronics manufacturing industry.
- Features of conductive POM compounds: The resistance range of INCHR@ conductive POM (Delrin) compounds is locked at 10^2 – 10^6 ohms/square. When used to manufacture injection molding grade pinions, it can ensure that the charge during the operation of the gear is promptly discharged, avoiding the impact of static adsorption of impurities on meshing accuracy. It performs well in precision motors and small automation equipment transmission systems.
Advantages Of ESD POM(Delrin) Compound
● Wear resistance: ESD POM compounds have excellent wear resistance and can maintain good performance in long-term use.
● Corrosion resistance: It has good corrosion resistance to chemicals such as acids, alkalis, and salts, and can be used in harsh environments.
● Mechanical properties: The ESD compound has high strength and rigidity, good toughness and elasticity, and can meet various mechanical requirements.
● Dimensional stability: ESD POM compounds have good dimensional stability and are not easily deformed, making them suitable for occasions that require high dimensional accuracy.
● Processing performance: Easy to process, and can be made into products of various shapes using injection molding, extrusion, blow molding, and other processing methods.
● Cost-effective: Compared with other antistatic materials, the anti-static polymer has a higher cost performance and can reduce costs in some applications.
Applications Of ESD POM(Delrin) Compound
ESD POM compounds have good comprehensive properties and are widely used in many fields:
● Electronic and electrical fields: Used in the manufacturing of electronic components, electrical housings, connectors, etc. to prevent damage to electronic equipment caused by the accumulation of static electricity.
● Automobile industry: Suitable for the manufacturing of automobile parts, such as door handles, instrument panels, fenders, etc., to reduce the interference of static electricity on automobile electronic systems.
● Industrial manufacturing: ESD POM compound has excellent wear resistance, it can be used in the manufacturing of industrial machinery parts, conveyor wheels, gears, etc. Due to the stable anti-static performance of this anti-static polymer, it will not absorb dust to improve the wear resistance, reliability, and safety of the equipment.
● Medical equipment: Chemical resistance to solvent fuels, high fatigue endurance, high strength and stiffness. These characteristics make antistatic material a good option for component manufacturing of medical equipment, such as surgical instruments, monitoring instruments, etc., to ensure the safety of static electricity during the medical process.
