High temperature resistant polyimide super engineering plastics have many excellent properties that other engineering plastics do not have: high temperature resistance, low temperature resistance, corrosion resistance, self-lubrication, low wear, excellent mechanical properties, good dimensional stability, small thermal expansion coefficient, high insulation, low thermal conductivity, no melting, no rust, can replace metals, ceramics, polytetrafluoroethylene and engineering plastics in many cases, and are widely used in petrochemical, mining machinery, precision machinery, automobile industry, microelectronic equipment, medical equipment and other fields, with a good performance-price ratio. Widely used in aviation, aerospace, microelectronics, nano, liquid crystal, separation membrane, laser and other fields.
Features & Advantages of PI
Ultra-high temperature polyimide (PI) polymer characteristics and advantages
UL certified for long-term use at 260℃; maintains strength even at 300℃.
Excellent durability under high temp, heavy load and corrosive conditions.
Low friction — works oil-free and in oil, water, steam, mild acids/alkalis.
Insoluble in common solvents; resists organic and inorganic chemicals.
Superior mechanical strength, rigidity and surface hardness.
Supports injection molding, machining, bonding and ultrasonic welding.
Works for thousands of hours in steam above 250℃ or pressurized water.
UL94 V-0 at 1.45 mm thickness without additives.
Produces very low smoke and toxic gases when burned.
Stable electrical performance across wide temp/frequency ranges.
Retains mechanical properties under high-dose gamma radiation.
Excellent dimensional stability under demanding conditions.
PI Properties Table
Ultra-high temperature polyimide (PI) polymer performance table
| Test Item | Test Standard | Unit | JHPI-10 | JHPI-10-21 | JHPI-10-22 | JHPI-HT | JHPI-YS | JSJHTPI-01 | JSJHTPI-02 |
| Density | ISO 1183 | g/cm3 | 1.40 | 1.43 | 1.7 | 1.4 | 1.36 | 1.32 | 1.36 |
| Tensile Strength | ISO 527 | Mpa | 96 | 90 | 60 | 92 | 121 | 90 | 97 |
| Elongation at Break | ISO 527 | % | 10 | 5 | 2.5 | 8 | 13 | 8 | 8 |
| Flexural Strength | ISO 178 | Mpa | 148 | 126 | 90 | 140 | 171 | 130 | 138 |
| Charpy Impact Strength | ISO 179 | MPa | 90 | 135 | 13 | 88 | No Break | 100 | No Break |
| Heat Deflection Temperature | ISO 75-1/-2 | ℃ | 300 | 300 | 300 | 320 | 255 | 230 | 250 |
| Continuous Service Temp. | UL746B | ℃ | 350 | 350 | 350 | 380 | 250 | 250 | 250 |
High-Performance Polyimide (PI) Solutions
Discover the versatile applications of high-temperature polyimide (PI) polymer, a material engineered for extreme environments and superior performance.
Key Characteristics & Applications
High-temperature polyimide is a high-performance polymer widely used across various industries, including automotive, semiconductors, electronics, and more. Its exceptional properties make it a go-to material for demanding applications.
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Low friction and wear-resistant components under high speed and pressure.
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Excellent creep or plastic deformation resistance.
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Superb self-lubricating or oil-lubricating properties.
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Liquid sealing components for high-temperature and high-pressure environments.
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High bending, tensile, and impact strength.
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Corrosion, radiation, and rust-resistant components.
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Components for long-term use at temperatures above 300°C, with short-term resistance up to 400-450°C.
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High-temperature structural adhesives for extreme conditions.
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Microelectronics applications including stress-buffering coatings and dielectric films.
Typical Products
- Mold hot runner insulation plates and rings
- Piston rings, valve seats
- Chip test sockets
- Copier separation claws
- Laser imprinting rollers
- Semiconductor chip nozzles
- Semiconductor industry fixtures and jigs
- Gas chromatography seals
- Rolling, sliding, and thrust washers
- Plasma torch vortex rings
- Gears, Automotive engine gaskets
- Glass industry brackets
- Microwave components
Application Industries
- Aerospace
- Medical devices
- Analytical and testing equipment
- Petrochemicals
- Gears and seals
- Electronics, Semiconductors, Photovoltaics, FPD
- Food processing, packaging, and beverage filling
- New energy vehicles
- Textile printing and dyeing machinery
- Composites
- General machinery