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Master Bond adhesives

Mitsui Arlen™ C230 30% Glass Fiber-Reinforced Modified Nylon 6T (DAM)
Categories: Polymer; Thermoplastic; Nylon (Polyamide PA)

Material Notes: ARLEN™ is a heat resistant, modified polyamide 6T developed by Mitsui Chemicals, Inc. With a high melting point (320°C) and a rigidity level comparable to super engineering plastics, it possesses strong dimensional stability and chemical resistance. In addition, the effect of water absorption, which is a traditional weakness of polyamides, has been reduced to a minimum.

Applications:

  • Connectors
  • Jacks
  • Switches
  • Power supply terminals
  • Various cases

Information provided by Mitsui.

Vendors: No vendors are listed for this material. Please click here if you are a supplier and would like information on how to add your listing to this material.
 
Physical PropertiesMetricEnglishComments
Density 1.42 g/cc0.0513 lb/in³ASTM D792
Filler Content 30 %30 %
Water Absorption  0.3 %
@Thickness 2.00 mm
0.3 %
@Thickness 0.0787 in
24 hours in 23°C water; ASTM D570
 3.0 %
@Thickness 2.00 mm
3.0 %
@Thickness 0.0787 in
24 hours in 100°C water; ASTM D570
Linear Mold Shrinkage, Flow 0.0050 cm/cm
@Thickness 2.00 mm
0.0050 in/in
@Thickness 0.0787 in
ASTM D955
Linear Mold Shrinkage, Transverse 0.0080 cm/cm
@Thickness 2.00 mm
0.0080 in/in
@Thickness 0.0787 in
Vertical Direction; ASTM D955
 
Mechanical PropertiesMetricEnglishComments
Hardness, Rockwell M 110110ASTM D785
Tensile Strength at Break 170 MPa24700 psiASTM D638
Elongation at Break 3.0 %3.0 %Measured between the chucks; ASTM D638
Flexural Strength 260 MPa37700 psiASTM D790
Flexural Modulus 10.0 GPa1450 ksiASTM D790
Izod Impact, Notched 0.800 J/cm1.50 ft-lb/inASTM D256
 
Electrical PropertiesMetricEnglishComments
Volume Resistivity 1.00e+16 ohm-cm1.00e+16 ohm-cmASTM D257
Dielectric Constant 4.5
@Frequency 1e+6 Hz
4.5
@Frequency 1e+6 Hz
ASTM D150
Dielectric Strength 28.0 kV/mm711 kV/inASTM D149
Dissipation Factor 0.018
@Frequency 1e+6 Hz
0.018
@Frequency 1e+6 Hz
ASTM D150
 
Thermal PropertiesMetricEnglishComments
CTE, linear 50.0 µm/m-°C
@Temperature 20.0 °C
27.8 µin/in-°F
@Temperature 68.0 °F
Vertical Direction; ASTM D696
CTE, linear, Parallel to Flow 24.0 µm/m-°C
@Temperature 20.0 °C
13.3 µin/in-°F
@Temperature 68.0 °F
ASTM D696
Melting Point 310 °C590 °F
Deflection Temperature at 1.8 MPa (264 psi) 300 °C572 °FASTM D648
Glass Transition Temp, Tg 85.0 °C185 °F
Flammability, UL94 HBHB
 
Processing PropertiesMetricEnglishComments
Feed Temperature 50.0 - 90.0 °C122 - 194 °FHopper Bottom for Electronic and Electric Standard Molding
 50.0 - 90.0 °C122 - 194 °FHopper Bottom Temp for Mechanical and Structural Standard Molding
Nozzle Temperature 315 - 335 °C599 - 635 °FNH Cylinder Temp for Electronic and Electric Standard Molding
 325 - 340 °C617 - 644 °FNH Cylinder Temp for Mechanical and Structural Standard Molding
Zone 1 300 - 325 °C572 - 617 °FC1 Cylinder Temp for Electronic and Electric Standard Molding
 315 - 330 °C599 - 626 °FC1 Cylinder Temp for Mechanical and Structural Standard Molding
Zone 2 315 - 335 °C599 - 635 °FC2 Cylinder Temp for Electronic and Electric Standard Molding
 320 - 335 °C608 - 635 °FC2 Cylinder Temp for Mechanical and Structural Standard Molding
Zone 3 320 - 335 °C608 - 635 °FC3 Cylinder Temp for Electronic and Electric Standard Molding
 325 - 340 °C617 - 644 °FC3 Cylinder Temp for Mechanical and Structural Standard Molding
Mold Temperature 90.0 - 140 °C194 - 284 °Ffor Electronic and Electric Standard Molding
 90.0 - 140 °C194 - 284 °Ffor Mechanical and Structural Standard Molding
Screw Speed 150 rpm150 rpmfor Mechanical and Structural Standard Molding
 150 rpm150 rpmfor Electronic and Electric Standard Molding
 
Descriptive Properties
Injection PressureMediumElectronic and Electric Standard Molding
 MediumMechanical and Structural Standard Molding
Injection SpeedMediumElectronic and Electric Standard Molding
 MediumMechanical and Structural Standard Molding

Some of the values displayed above may have been converted from their original units and/or rounded in order to display the information in a consistent format. Users requiring more precise data for scientific or engineering calculations can click on the property value to see the original value as well as raw conversions to equivalent units. We advise that you only use the original value or one of its raw conversions in your calculations to minimize rounding error. We also ask that you refer to MatWeb's terms of use regarding this information. Click here to view all the property values for this datasheet as they were originally entered into MatWeb.

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PMIT002 / 53178

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