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VICTREX HPG™ POLYMER 140 GRA

High performance thermoplastic material, unreinforced PolyEtherEtherKetone (PEEK), semi crystalline, granules for injection moulding, standard flow, colour natural. Chemically resistant to aggressive environments

Material Properties
Physical

Nominal Value

Unit

Test Method

Density (Crystalline)

1.30

g/cm³

ISO 1183

Spiral Flow 1

12.0

cm

Internal Method

Molding Shrinkage 2

ISO 294-4

Across Flow

1.3

%

Flow

0.90

%

Mechanical

Nominal Value

Unit

Test Method

Tensile Modulus

ISO 527-1

23°C

3700

MPa

80°C

3500

MPa

120°C

3300

MPa

160°C

600

MPa

Tensile Stress

ISO 527-2

Yield, 23°C

95.0

MPa

Yield, 80°C

70.0

MPa

Yield, 120°C

50.0

MPa

Tensile Strain (Break, 23°C)

30

%

ISO 527-2

Flexural Modulus

ISO 178

23°C

3700

MPa

80°C

3300

MPa

120°C

3200

MPa

160°C

500

MPa

Flexural Stress

ISO 178

23°C 3

150

MPa

3.5% Strain, 23°C

120

MPa

80°C 3

110

MPa

120°C 3

85.0

MPa

160°C 3

25.0

MPa

Compressive Modulus

ISO 604

23°C

3700

MPa

80°C

3400

MPa

120°C

3300

MPa

160°C

600

MPa

Compressive Stress

ISO 604

23°C

120

MPa

80°C

100

MPa

120°C

80.0

MPa

Impact

Nominal Value

Unit

Test Method

Charpy Notched Impact Strength (23°C)

7.0

kJ/m²

ISO 179/A
Thermal

Nominal Value

Unit

Test Method

Glass Transition Temperature (Onset)

143

°C

ISO 11357-2

Melting Temperature

343

°C

ISO 11357-3
Fill Analysis

Nominal Value

Unit

Test Method

Melt Viscosity (400°C)

450

Pa·s

ISO 11443
Typical Processing Information
Injection

Nominal Value

Unit

Drying Temperature

120 to 150

°C

Drying Time

3.0 to 5.0

hr

Suggested Max Moisture

0.020

%

Hopper Temperature

< 100

°C

Rear Temperature

375

°C

Middle Temperature

380 to 385

°C

Front Temperature

390

°C

Nozzle Temperature

395

°C

Mould Temperature

170 to 200

°C

Injection Notes

Runner: Die / nozzle >3mm, manifold >3.5mm
Gate: >1mm or 0.5 x part thickness

Important notes:
1) Processing conditions quoted in our datasheets are typical of those used in our processing laboratories

  • Data for mould shrinkage should be used for material comparison. Actual mould shrinkage values are highly dependent on part geometry, mould configuration, and processing conditions.
  • Mould shrinkage differs for along flow and across flow directions. “Along flow” direction is taken as the direction the molten material is travelling when it exits the gate and enters the mould.
  • Mould shrinkage is expressed as a percent change in dimension of a specimen in relation to mould dimensions.

2) Data are generated in accordance with prevailing national, international and internal standards, and should be used for material comparison. Actual property values are highly dependent on part geometry, mould configuration and processing conditions. Properties may also differ for along flow and across flow directions.

Detailed data available on our website www.victrex.com or upon request.

Notes
1Mould Temperature: 180°C, Melt Temperature: 395°C, 1.00 mm
2395°C nozzle, 180°C tool
3At yield

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Vic
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