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LAPEX A G/30

Family: LAPEX A
Base resin:Polyethersulphone (PESU)
General information
Compound based on Polyethersulphone (PESU). Glass fibres. Intrinsically flame retardant. PFAS-free product.
Versions of product mentioned herein are suitable for applications in contact with foodstuffs or for toy manufacturing. Nevertheless, manufactured parts have to be verified according to the specific directives.
The products mentioned herein are not suitable for applications in the pharmaceutical, medical or dental sector.
Features
  • - Intrinsically flame retardant
Project challenges
  • - High temperature usage
  • - Flame retardancy halogen free
  • - Chemical stability
  • - Wear and friction
Additives
  • - Glass fibres
Process types
  • - Injection moulding
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Technical datasheets
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Technical characteristics
Physical properties Standard Value Measure Units
Density ISO 1183 1.58 g/cm³
Linear shrinkage at moulding
Longitudinal (2.0mm/60MPa) ISO 294-4 0.30 ÷ 0.40 %
Transversal (2.0mm/60MPa) ISO 294-4 0.60 ÷ 0.80 %
Dimensional stability --- 74
Moisture absorption
Saturation, in air ISO 62-4 0.6 %
At saturation, in water ISO 62-4 1.6 %
Melt Flow Index (MFI) ASTM D 1238 13.00@380°C/2.16kg g/10'
Mechanical properties Standard Value Measure Units
CHARPY impact strength
Unnotched, at +23°C ISO 179-1eU 55 kJ/m²
Notched, at +23°C ISO 179-1eA 10 kJ/m²
Tensile elongation
At break (5 mm/min), 23°C ISO 527 2.4 %
At break (5 mm/min), 60°C ISO 527 2.2 %
At break (5 mm/min), 90°C ISO 527 2.1 %
At break (5 mm/min), 120°C ISO 527 2 %
At break (5 mm/min), 150°C ISO 527 2.3 %
Tensile strength
At break (5 mm/min), 23°C ISO 527 160 MPa
At break (5 mm/min), 60°C ISO 527 140 MPa
At break (5 mm/min), 90°C ISO 527 125 MPa
At break (5 mm/min), 120°C ISO 527 115 MPa
At break (5 mm/min), 150°C ISO 527 100 MPa
Elastic modulus
Tensile (1 mm/min), 23°C ISO 527 9300 MPa
Tensile (1 mm/min), 60°C ISO 527 8400 MPa
Tensile (1 mm/min), 90°C ISO 527 8100 MPa
Tensile (1 mm/min), 120°C ISO 527 8000 MPa
Tensile (1 mm/min), 150°C ISO 527 7500 MPa
Thermal properties Standard Value Measure Units
Coefficient of linear thermal expansion (CLTE)
+30°C to +100°C (longitudinal) ISO 11359 15 × 10ˉ⁶ Kˉ¹
+30°C a +100°C (transversal) ISO 11359 50 × 10ˉ⁶ Kˉ¹
VICAT - Softening point
50N (heating rate 120°C/h) ISO 306 220 °C
HDT - Heat Deflection Temperature
0.45 MPa ISO 75 220 °C
1.81 MPa ISO 75 215 °C
Thermal conductivity
in plane ASTM E 1461-92 0.2 W/mK
through plane ASTM E 1461-92 0.2 W/mK
Flammability Standard Value Measure Units
Oxygen Index ASTM D 2863 40 %
Flammability rating
3 mm thickness UL 94 V-0
1.5 mm thickness UL 94 V-0
Electrical properties Standard Value Measure Units
CTI - Comparative Tracking Index - solution A (without surfactant) IEC 60112 125 V
Electrical resistivity
Surface, dry ASTM D 257 / D 4496 1E12 ohm
Dielectric strength (short period)
2 mm thickness, 23°C, dry ASTM D 149 27 kV/mm
Melt Temperature Standard Value Measure Units
Suggested melt temperature --- 350 ÷ 380 °C
Mould Temperature Standard Value Measure Units
Suggested mould temperature --- 140 ÷ 180 °C
Drying conditions (hot air dessiccator)
Predrying needed. At least 3 hours at 130 ÷ 170°C
Injection speed
Injection speed: medium to high. Setting an injection profile should improve moulding.
Hot runners
Usage of hot runner: possible