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The material: 'Stabar K200 Polyetheretherketone Polymer Film (EK301075)' you were looking for has been superseded by the one below.

Stabar K200 Polyetheretherketone Polymer Film (EK301075)

Alternative and trade names
Stabar K200 Polyetheretherketone Polymer Film (EK301075)
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Description

PEEK is an inherently crystalline polymer with a high crystalline melting point of 340 °C, but “Stabar” K200 film has been manufactured in such a way that full crystallinity has not been developed in the film. The result is that “Stabar” K200 is a highly transparent low haze film and has the ability to be thermoformed and embossed at temperature below 200 °C.


Heat treatment of “Stabar” K200 film between its melting point and the glass transition temperature of 143 °C will induce crystallisation as seen by the onset of opacity, higher rigidity at high temperatures, and improved solvent resistance.

This material data has been provided by Matmatch.

"Typical" values were obtained via a literature search. "Predicted" values were imputed via artificial intelligence technology. While we have placed significant efforts in ensuring data accuracy, "typical" and "predicted" data should be considered indicative and verified by appropriate material testing. Please do contact us if additional information on the the predicted data method is required.
All metrics apply to room temperature unless otherwise stated. SI units used unless otherwise stated.
Equivalent standards are similar to one or more standards provided by the supplier. Some equivalent standards may be stricter whereas others may be outside the bounds of the original standard.

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Properties

General

PropertyTemperatureValueComment

Coefficient of hygroscopic expansion

23.0 °C

5E-6 %

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Limiting oxygen index

23.0 °C

25 %

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D2863-77

Permeability coefficient

23.0 °C

13 cm²/s

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E96

Water absorption

23.0 °C

0.4 %

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24h

Mechanical

PropertyTemperatureValueComment

Elongation

23.0 °C

240 %

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D882-67

Elongation, transverse

23.0 °C

240 %

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D882-67

Tensile strength

23.0 °C

120 MPa

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D882-67

Tensile strength, transverse

23.0 °C

120 MPa

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D882-67

Thermal

PropertyTemperatureValue

Coefficient of thermal expansion

110.0 °C

4E-5 1/K

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Glass transition temperature

143 °C

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Max service temperature, long

250 °C

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Specific heat capacity

23.0 °C

1450 J/(kg·K)

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Flammability

UL94 VTM -1 (100 micron)

Electrical

PropertyTemperatureValueComment

Dielectric constant

25.0 °C

3.3 [-]

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at 50Hz, D150

Dielectric strength

23.0 °C

128 kV/mm

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D194-64

Dissipation factor, 50Hz

25.0 °C

1.8E-3 [-]

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D150

100.0 °C

1.6E-3 [-]

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D150

Electrical resistivity

25.0 °C

1.00E+15 Ω·m

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D257

Rheological Properties

PropertyTemperatureValueComment

Shrinkage

150.0 °C

0.5 %

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30s

Shrinkage, transverse

150.0 °C

0.5 %

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30s

Technological properties

Property
Other

“Stabar” K200 film offers an excellent combination of properties including: Intrinsic long term heat stability; Low flammability and extremely low smoke and toxic gas evolution on burning; Resistance to attack by a wide range of organic and inorganic chemicals and solvents; Low water absorption and good hydrolysis resistance at high temperatures and pressures; Resistance to radiation (X-rays, beta-rays and gamma rays) is amongst the best of thermoplastic materials; Good tear and fatigue resistance; Retention of good electrical properties over a wide temperature range.

Processing methods

“Stabar” K200 film can be adhesion-bonded either to itself or to other substrates, the bond strengths being dependent upon the type of adhesive and the surface preparation. “Stabar” K200 film may be fusion- bonded to itself, to reinforcements and to other substrates by application of heat and pressure. “Stabar” K200 film can be metallised by vacuum deposition and sputtering techniques, and is compatible with a range of inks and lacquers.

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