Nowadays, plastic plays a key role in different industrial segments, and electronics is no different. This article reviews the most important plastic components employed in the manufacturing of electronic equipment and takes a look at how they impact the functionality and performance. Enjoy your read!
Plastic in electronic components
Plastic is important in manufacturing such electronic equipment as printed circuit boards (PCBs). They employ plastics with high insulating properties, such as polyimide (PI) or polyesters, which enables embedding elements without the risk of conducting electricity. Insulators and relays also require high thermal strength, thus often using polyamides (PA) and PTFE. Appropriately designed plastic parts are crucial for the functionality and durability of such electronic components.
Plastic in conductors and cables
Plastic is also important in manufacturing conductors and cables, providing insulation against flowing current. Such components employ different substances, such as polyethylene (PE) and PVC, which guarantees resistance to damage and high temperatures. Coaxial conductors in telecommunications require optimal protection against interference, and data transmission cables must ensure connection stability. Insulating plastic materials provide system durability and reliability, which makes them extremely important for this industry.
Plastic in screens and displays
Plastic that NOEX, a manufacturer of plastic products, uses to produce parts is also a key component in screen and display manufacturing, in the thin-film polymer technology in particular. Its flexibility and impact strength enable developing modern solutions, such as flexible OLED screens. Plastic in LCDs constitutes the substrate for the liquid crystal layer, controlling light permeability. Elements made of this material are also employed in tactile systems, ensuring protection and precise operation of the sensors.
The future of plastic in electronics
In the future, the role of plastic will only grow, and technological innovations will contribute to its wider application. Miniaturization, flexibility and ecology will impact the search for new materials. We can expect a greater number of devices using this raw material, which will improve their performance. Simultaneously, the growing environmental awareness will make the world look for alternatives to traditional plastics, such as biodegradable polymers that can revolutionise the market.
