POLYIMIDE LIFT PIN FOR LCD GLASS

Polyimide Lift pin is used for supporting and lifting the LCD glass panel at LCD manufacturing progress. Polyimide has excellent properties of no partical release, low out gassing and stable machenical strength at high temperature.

Special properties of Polyimide (PI)

  • Long-term thermal stability 300 °C (short-term up to 400 °C)
  • Good cryogenic properties down to -270 °C
  • High strength, modulus and stiffness also at high temperatures over 260 °C
  • Excellent wear resistance under high surface pressure and high sliding speeds
  • Excellent thermal and electrical insulation
  • Minimal thermal conductivity
  • High purity, low outgassing in vacuum conditions in accordance
  • Good machinability
  • Good chemical resistance to acids, fats and solvents
  • Highest flame retardant grade UL-94 V-0
  • Irradiation resistance
  • Aging resistance
  • Polyimide is ideal for electrical and thermal insulating applications. More ductile than ceramics, and lighter weight than metals. Polyimide is an excellent choice for structural parts in aerospace and other applications where metal replacement is desirable.
  • Polyimide sheet plate & Polyimide rod can be machined as wafer handling tools (wafer tips) IC Test Sockets & Probe Test Heads…

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POLYIMIDE LIFT PIN FOR LCD GLASS In Detail

Description

Description Grades of Polyimide (PI)
PI-N, Natural (Unfilled) Polyimide, Highest elongation and purity.

PI-G15, Self-lubricating grade with 15% graphite filled.

Typical Applications of Polyimide

  • Semiconductor Industry: Semiconductor manufacturing process equipment with high purity, high resistance. Such as wafer clamping rings, wafer carries, wafer guides, wafer tips, die-pickup collets, vacuum pads, bearings, centering pins, alignment pins, insulators, screws & fasteners, Semicon Insulator Bushing,Plasma Torch Tips,IC Test Sockets & Nests
  • Automotive industry: Thrust washer or piston rings in transmission and pumps replacing traditional metals
  • Aero space industry: Jet engine parts such as pads, bumpers, seals and bearings
  • Industrial Machinery: Nozzle tip insulators for hot runner nozzles used for injection molding of thermoplastic products such as PET preforms, PET caps
  • Polyimide in the glass industry: The use of polyimide can enhance productivity in the manufacture of glass bottles for container glass, the pharmaceutical and cosmetics industry.
  • Polyimide excellent temperature resistance and low thermal conductivity lend these high-performance plastics key benefits, particularly for hot-glass handling, compared to components made of graphite. They also help extend the service life of components and improve the rate of the production. In addition, Polyimide materials are economical to process, making them an ever more popular alternative for the production of take-out inserts and bottle grippers.

Machining of Polyimide

Polyimide offers ease of machining and tight tolerances due to its inherent mechanical strength, stiffness and dimensional stability. Machining Polyimide isn’t too different from machining metals as a result of this; pretend you’re machining brass. Unlike metal, though, Polyimide (like all thermoplastics) will deform if you hold it too tightly.

We generally recommend Tungsten Carbide Alloy Tooling, although we recommend diamond tooling for large volume runs or work requiring close tolerances. Be wary of overheating Polyimide when you machine it. It shouldn’t become so hot that you can’t grasp it with your bare hands.

Polyimide Material Datasheet

PI – Polyimide
Polyimide (PI) is a non melting high temperature polymer. Strength, dimensional stability, and creep resistance remain high even at temperatures above 360°C
Properties Temperature Test Standard or Instrument Unit PI-N PI-G15
Physical Properties
Color Brown Black
Density GB1033  g/cm³ 1.38-1.42 1.42-1.45
Mechanical Properties
Tensile Strength 23℃ GB/T1040-2006 Mpa 85 89
260℃ 49.4 54
Elongation at Break 23℃ GB/T1040-2006 % 6.3 3.7
260℃
Tensile Modulus 23℃ GB/T1040-2006 Mpa 3140 4400
260℃
Flexural Strength 23℃ GB/T1040-2000 Mpa 110 137
260℃ 60 99
Flexural Modulus 23℃ GB/T1040-2000 Mpa 2990 4500
260℃ 1640 3000
Compress Strength 23℃ GB/T1040-2000 Mpa 135 124
260℃ 83.8 100
Compress Modulus 23℃ GB/T1040-2000 Mpa 1620 1600
260℃ 1410 1400
lzod Unotched Impact Strength 23℃ GB/T16420-1996 Kj/m2 83.2 45
260℃
Thermal Properties
Coefficient of Linear Expansion 296-573K μm/m/°C 53 49
 Deflection Temperature GB/T 1634.2 >360 >360
Electrical Properties
Surface Resistvity GB1410 Ω 1014
Volume Resistvity GB1410 Ω.cm 1015
Dielectric Strength KV/mm 22
Dielectric Constant 3.6
NOTE: *The data stated above are typical values intended for reference and comparison purposes only. *The data should not be used as a basis for design specifications or quality control. *The information is provided as a guide to the best of our knowledge and given without obligation or liability. *Testing under individual application circumstances is recommended.
* PI-N,  Natural (Unfilled) PI
* PI-G15, 15% Graphite Filled PI

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