Difference between revisions of "Plastic tubing"
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Line 16: | Line 16: | ||
| Acrylic || Cell 2 || Cell 3 | | Acrylic || Cell 2 || Cell 3 | ||
|- | |- | ||
− | | Nylon || opaque; semiclear || expensive; chemically inert; slightly flexible; can withstand high pressures || | + | | Nylon || opaque; semiclear; many colors; 1/8" to 1/2" || expensive; chemically inert; slightly flexible; can withstand high pressures || |
|- | |- | ||
| Polycarbonate || Cell 10 || Cell 11 | | Polycarbonate || Cell 10 || Cell 11 |
Revision as of 15:19, 2 March 2020
Description
NOTE Record under construction
Plastic tubing is commonly used with fluids and gases in hydraulic, pneumatic, wiring, and medical systems, among other applications. Larger sizes of circular plastic tubes are also used as containers with removable tops (stoppers) and bottoms. Examples of plastic tube materials and their properties are presented below.
Properties
Composition | Forms/Sizes | Properties | Uses |
---|---|---|---|
Acrylic | Cell 2 | Cell 3 | |
Nylon | opaque; semiclear; many colors; 1/8" to 1/2" | expensive; chemically inert; slightly flexible; can withstand high pressures | |
Polycarbonate | Cell 10 | Cell 11 | |
Polyethylene | Cell 14 | Cell 15 | |
Polypropylene | opaque; semiclear | exconomical; chemically inert; rigid | |
Polyvinyl chloride (rigid) | opaque white | Cell 7 | |
Teflon | Cell 10 | Cell 11 | |
Silicone | Cell 14 | Cell 15 | |
Vinyl (flexible, e.g. Tygon) | Cell 14 | Cell 15 |