PEEK Chip Label

PEEK Chip Label is a label made of high-performance polyetheretherketone (PEEK) material with excellent wear resistance, high temperature stability and chemical stability. Through a process of extrusion molding and cooling and solidification, PEEK Chip Label sheets form thin, strong labels suitable for various application scenarios. These labels can be printed with custom logos and then attached to chips or other devices. PEEK Chip Label excels in environments that require high-performance marking, such as electronics, aerospace and medical device fields, providing long-lasting, reliable marking solutions.

The process flow of PEEK Chip Label includes extrusion molding, cooling and solidification, cutting, printing (optional), lamination (optional), heat treatment (optional) and quality inspection. PEEK sheets are formed by extrusion and cooling and solidification, cut into labels, optionally printed with logos, attached to chips, undergo possible heat treatment, and finally undergo quality inspection to ensure compliance with requirements. This process ensures that PEEK Chip Label has the superior properties of PEEK materials and is suitable for high-performance marking applications.

Precision machining: PEEK materials can be precision machined to manufacture parts with a high degree of accuracy, which is important for some applications that require high precision.

Low coefficient of friction: PEEK has a low coefficient of friction, which makes it an ideal choice in some applications where friction and wear need to be reduced, such as in the design of wear rings.

Surface coating technology: Use special surface coatings, such as ceramic coating or special polymer coating, to improve the surface hardness and wear resistance of the wear ring.

Heat treatment and quenching: PEEK materials are heat treated or quenched to increase their hardness and strength and improve their durability in wear rings.

Geometry Optimization: Optimize the performance of the wear ring through precise geometric design to minimize friction losses and ensure optimal operation in specific environments.

Advanced Manufacturing Technology: Utilize advanced manufacturing technology, such as CNC machining, laser cutting, etc., to ensure high precision and consistency of the wear ring.