L322

L322

  • L322
  • L322
  • L322
  • L322
  • L322
  • L322
  • L322

L322

Main Features

Medium heat injection
Moulding, high flow
Good thermal
Stability during processing

Density: 1.04

Main Application

Domestic appliances
Thermal resistant items(front panels, frames etc.)
Electrical sector

Density: 1.04

Keys

Packaged product should be protected from the atmosferic agents and stored out of direct sunlight
NB: No Break
/M: Matt - Digit following letter
/M indicates increasing values of mattness

Properties Test Condition Test Methods Units  
General        
Density   ISO 1183 g/cm3 1.04
Water Absorption   ASTM D 570 % 0.3
Rheological

 

       
Melt Flow Rate (MFR)   ISO 1133 g/10min 23
Mechanical

 

       
Tensile Strength 50 mm/min ASTM D 638 MPa 45
Strain at break 50 mm/min ASTM D 638 % 20
Flexural Strength 2 mm/min ASTM D 790 MPa 69
Flexural Modulus 2 mm/min ASTM D 790 MPa 2350
Izod Impact Strength Notched +23°C - thickness 3.2 mm ISO 180/4A J/m 170
  0°C - thickness 3.2 mm ISO 180/4A J/m 100
  - 20°C - thickness 3.2 mm ISO 180/4A J/m 70
  - 40°C - thickness 3.2 mm ISO 180/4A J/m 50
  +23°C - thickness 4 mm ISO 180/1A kJ/m² 13
  - 40°C - thickness 4 mm ISO 180/1A kJ/m² 6
Charpy Impact Strength, Notched +23°C DIN 53453 kJ/m² 10
Unnotched +23°C DIN 53453 kJ/m² NB
Unnotched - 40°C DIN 53453 kJ/m² NB
Rockwell Hardness scale R ISO 2039/2 kJ/m² R109
Thermal

 

       
Vicat Softening Tempreture 10 N - 120°C/h ISO 306/A120 ºC 99
  50 N - 120°C/h ISO 306/B120 ºC 96
Deflection temp. under load (annealed) 1.8 MPa - 120°C/h ASTM D 648 ºC 96
Ceofficient of linear thermal expansion   ASTM D 696 10 -5/ºC 9
Thermal Conductivity   ASTM C 177 W/(Km) 0.17
Moulding Shrinkage   ISO 294.4 % 0.4-0.6
Flammability

 

       
Flame behavior thickness 1.5 mm UL 94 class HB
Glow wire test thickness 3 mm IEC 60695-2-1 ºC 650
Electrical

 

       
Surface resistivity dry IEC 60093 ohm 10+14
Volume resistivity dry IEC 60093 ohm*cm 10+15
Dielectric strength dry IEC 60243 kV/mm 30
Dielectric constant (relative permittivity) 1000 Hz - dry IEC 60250   3.1
Dissipation factor 1000 Hz - dry IEC 60250   15*10-³