Semiconductor
Semiconductor manufacturing involves harsh chemicals, exacting high purity requirements and resistance
to electrical shock, as well as cost effectiveness.
Applications
- Tanks (water, chemical, fuel)
- Semiconductor device test sockets
- Circuit boards
- High temperature components
- Integrated circuit chip carriers
- High-purity piping systems
- Semiconductor trays and boxes
- Electrical insulators
- Chemical tanks
- Piping components such as valves, fittings, pipe and tubing, filtration elements
- Wafer handling parts
- Wet benches and work stations
- Microelectronics
- Flexible tubing
- Components used to control static electricity
- Uttrapure water systems
- Vacuum wand tips
- Waste transfer lines
Benefits
- Lightweight
- Abrasion resistant in polishing slurries
- Resistant to corrosive acids
- Inert to common process chemicals
- Low outgassing characteristics
- Minimal contamination to flow
- Performs well in extreme heat: nonflammable
- Static dissipative properties
- Sophisticated joining equipment minimizes or eliminates possible joint contamination
- Cost effective
- Electrical insulating properties
- Low particle generation in bearing and wear applications