The semiconductor industry requires components that are manufactured from materials having a combination of heat resistant, conductive, insulating, and shielding properties. All these properties are exhibited by high performance plastics. They are ideal materials with which to produce end products, as well as parts in the processing equipment used to manufacture semiconductors. Some of the semiconductor components that are manufactured of plastics are flexible connectors, laminates, and shielding films.
High performance plastics such as Fluorinated Ethylene Propylene (FEP), Polyether Ether Ketone (PEEK), Polyetherimide (PEI), Polytetrafluoroethylene (PTFE), and Polysulfone (PSU) are characterized by their exceptional properties in different areas. High performance plastics are largely used where highest demands are placed on thermal or chemical resistance, product mechanics, or on the slippage of products.
Advantages of High Performance Plastics in Semiconductor Industry?
As said earlier, high performance plastics have the properties required for manufacturing semiconductors. Here are some of the advantages that make high performance plastics the preferred choice over other materials:
- High performance plastics exhibit exceptional chemical resistance properties that help to avoid corrosion
- They offer low particle generation for better yield of product
- These plastics have low outgassing and low moisture absorption characteristics in vacuums
- High performance plastics deliver high temperature performance
- They have a low dielectric constant and good electrical insulating properties
- A high performance plastic has dimensional stability for longer part life
- They have low metal ion content, and hence low levels of extractables in high purity chemicals
- They possess excellent machinability
- They are flame retardant
- They have low thermal conductivity
Characteristics of High Performance Plastics:
Owing to their higher heat stability, superior mechanical properties, and greater chemical stability, high performance plastics meet higher requirements as compared to standard and engineering plastics. Fiber optics, electrical wire insulators, and fluid flow tubing are some of the diverse applications of high performance plastics.
The characteristics and advantages explained above will help you in gaining more knowledge about high performance plastics. They also explain why plastics are widely used in the semiconductor industry. For more information on these plastic, you can get in touch with a plastic manufacturer.