APTIV™ FILMS 2000

APTIV 2000 series films are the unfilled amorphous films made from VICTREX™ PEEK polymer. The film provides a material solution for engineers in ultra-high performance applications.

APTIV films are a comprehensive range of versatile, high-performance films, the use of which can facilitate reduced systems costs, improved performance and enhanced design freedom.

APTIV 2000 has a unique combination of properties providing high temperature performance, light weight, mechanical strength, durability, excellent radiation, hydrolysis and chemical resistance, electrical insulation, wear and abrasion resistance, excellent barrier properties with high purity, good flammability without the use of flame retardants, low toxicity of combustion products, and low moisture absorption in a film format. Inherently halogen free and ease of processing makes APTIV films a technology enabler for our customers and end users.

Please note - APTIV 2000 will crystallize if taken above the Tg (143°C, 289°F) in either secondary processes or end use application. The crystallization is not reversible back to the amorphous phase without re-melting the material. Consideration of the temperature range during processing and end use application needs to be included if selecting APTIV 2000.

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Material Properties
Physical	Nominal Value	Unit	Test Method
Density (23°C)	1.26	g/cm³	ISO 1183
Water Absorption¹ (Equilibrium, 23°C, 0.0500 mm, 50% RH)	0.21	%	ISO 62
ShrinkageMD² (200°C, 50.0 µm)	< 10	%
ShrinkageTD² (200°C, 50.0 µm)	< 5.0	%
Films	Nominal Value	Unit	Test Method
Film Thickness - Recommended / Available	6 to 300 µm
Tensile Modulus			ISO 527-3
MD : 23°C, 25 µm	1800	MPa
TD : 23°C, 25 µm	1800	MPa
MD : 23°C, 50 µm	1800	MPa
TD : 23°C, 50 µm	1800	MPa
MD : 23°C, 100 µm	1600	MPa
TD : 23°C, 100 µm	1600	MPa
Tensile Stress			ISO 527-3
MD : Break, 23°C, 25 µm	130	MPa
TD : Break, 23°C, 25 µm	130	MPa
MD : Break, 23°C, 50 µm	120	MPa
TD : Break, 23°C, 50 µm	120	MPa
MD : Break, 23°C, 100 µm	120	MPa
TD : Break, 23°C, 100 µm	120	MPa
Tensile Elongation			ISO 527-3
MD : Break, 23°C, 25 µm	> 200	%
TD : Break, 23°C, 25 µm	> 200	%
MD : Break, 23°C, 50 µm	> 200	%
TD : Break, 23°C, 50 µm	> 200	%
MD : Break, 23°C, 100 µm	> 200	%
TD : Break, 23°C, 100 µm	> 200	%
Trouser Tear Resistance³			ISO 6383-1
MD : 50 µm	6.00	N/mm
TD : 50 µm	6.00	N/mm
Puncture Resistance (23°C, 50.0 µm)	40	kJ/m²	Internal Method
Thermal	Nominal Value	Unit	Test Method
Peak Crystallization Temperature (DSC)	143	°C
CLTE - Flow ⁴ (0.0500 mm)	6.0E-5	cm/cm/°C	ASTM D696
Electrical	Nominal Value	Unit	Test Method
Volume Resistivity⁵ (23°C, 50 µm)	2.0E+16	ohms·cm	ASTM D257
Dielectric Strength⁶			ASTM D149
23°C, 25 µm	270	kV/mm
23°C, 50 µm	190	kV/mm
23°C, 100 µm	120	kV/mm
Dielectric Constant (23°C, 50 µm, 10 MHz)	3.3		ASTM D150
Dissipation Factor (23°C, 50 µm, 10 MHz)	3.0E-3		ASTM D150
Dielectric Breakdown			ASTM D149
23°C, 25.0 µm	6750	V
23°C, 50.0 µm	9500	V
23°C, 125.0 µm	15000	V

Notes

¹24 hrs

²TM-VX-84

³23°C

⁴below Tg

⁵100 V

⁶0.25 inch electrode