Gharda Chemicals GAFONE™ 3420GF PES, Glass Fiber-Reinforced (discontinued **)

Port Shanghai port,China
Trade Terms FOB, CFR, CIF
Payment Terms L/C, T/T, Western Union

Description

Material Notes:
Glass fiber reinforced granules for injection molding. With lower viscosity for molding intricate cross sections.Characteristics: Very high rigidityGood dielectric propertiesHigh mechanical strengthGood dimensional stabilityGood resistance to hydrolysis and sterilizationGood oxidative stabilityInherent flame retardanceApplications: Reusable hypodermic syringesSurgical instruments and componentsPrinted circuit boardsCircuit breaker componentsOil level indicatorsHeat exchanger partsEngine componentsHousehold appliancesFilter housingsSanitary and pipe fittingsInformation provided by Gharda.Solvay Advanced Polymers completed its acquisition of this product line in May 2006.
Physical Properties Metric English Comments
Density 1.51 g/cc

0.0546 lb/in³

ISO 1183
Filler Content 20 %

20 %

Moisture Absorption at Equilibrium 0.30 %

0.30 %

ISO 62
Linear Mold Shrinkage 0.0030 cm/cm

0.0030 in/in

ASTM D955

 

Mechanical Properties Metric English Comments
Tensile Strength at Break 120 MPa

17400 psi

ISO 527
Elongation at Break 3.0 %

3.0 %

ISO 527
Tensile Modulus 7.00 GPa

1020 ksi

ISO 527
Flexural Strength 175 MPa

25400 psi

ISO 178
Flexural Modulus 6.50 GPa

943 ksi

ISO 178
Izod Impact, Notched (ISO) 6.00 kJ/m²

2.86 ft-lb/in²

ISO 180/1A

 

Thermal Properties Metric English Comments
Maximum Service Temperature, Air 185 °C

365 °F

Continuous use
Deflection Temperature at 1.8 MPa (264 psi) 210 °C

410 °F

ISO 75
Glass Transition Temp, Tg 225 °C

437 °F

DSC
Flammability, UL94 V-0

V-0

Oxygen Index 41 %

41 %

ISO 4589

 

Electrical Properties Metric English Comments
Volume Resistivity >= 1.00e+16 ohm-cm

>= 1.00e+16 ohm-cm

IEC 93
Surface Resistance >= 1.00e+14 ohm

>= 1.00e+14 ohm

IEC 93
Dielectric Strength 20.0 kV/mm

508 kV/in

IEC 243/1
Arc Resistance 80 sec

80 sec

ASTM D495
Comparative Tracking Index 150 V

150 V

IEC 112