Technical plastics have great application potential in the charging infrastructure for electric vehicles, especially for wall-mounted charging stations. These wallboxes must be very safe because they are used inside buildings such as parking garages or private garages. The selection criteria for the materials from which they are made are correspondingly strict. One plastic that meets the high requirements is the halogen-free flame-retardant Durethan BKV20FN01 from LANXESS. The polyamide 6 compound is used to make charging cable connectors manufactured by Leopold Kostal GmbH & Co. KG.
High glow-wire resistance
“The key arguments for using our material in this application were its high tracking resistance and high flame-retardance based on the halogen-free flame retardant package. It is also easy to process and produces components with a high surface quality,” explains Bernhard Helbich, Technical Marketing Manager Key Accounts at LANXESS. The compound’s level of flame-retardance is demonstrated by the UL 94 flammability test of the US Underwriters Laboratories Inc. testing organisation. The polyamide passes the test with the top classification of V-0 at a test specimen thickness of 0.75 millimeters. Because wallboxes come under “unattended household appliances”, the plastics used must comply with the international standard IEC/EN 60335-1. In particular, they must prove that they are flame-retardant in glow-wire testing. Durethan BKV20FN01 passes the GWIT test (Glow Wire Ignition Temperature, IEC 60695-2-13) at 775 °C with test specimen thicknesses of 0.75 millimeter and above. In the GWFI test (Glow Wire Flammability Index, IEC 60695-2-12), the thermoplastic achieves the top value for plastics of 960 °C (0.75 millimeter test specimen thickness).
Reduced risk of short circuits and equipment defects
Another strength of the material is its high tracking resistance. For example, it achieves the top rating of 600 in the CTI A test (Comparative Tracking Index, IEC 60112) and the top value of PLC 0 (Performance Level Category) in the similarly designed UL 746 test. “This reduces the risk of short circuits and defects caused by creepage currents in the wallbox. In addition, the electrical and electronic assemblies can be designed more compactly, resulting in a smaller device overall with higher power density,” Helbich explains.
The compound, which is reinforced with 18% short glass fibers by weight, also has good strength, stiffness and toughness. The charging cable connector systems are therefore not susceptible to mechanical loads, particularly during assembly. The polyamide can also be economically processed in a stable injection molding process.