Introduction

In the realm of new energy charging pile technology, the housing material plays a crucial role in ensuring safety and reliability. The adoption of flame retardant PC/ABS material for the exterior of new energy charging piles offers enhanced security and dependability. This unique material is a blend of polycarbonate (PC) and acrylonitrile-butadiene-styrene copolymer (ABS), providing a robust and versatile solution for the demanding requirements of new energy vehicle infrastructure.

Flame Retardant Properties:

The flame retardant PC/ABS material exhibits outstanding fire resistance, meeting standards like UL94 V-0. It effectively suppresses flame propagation, reducing the occurrence of fire accidents.

High-Temperature Resistance:

With superior high-temperature endurance, the flame retardant PC/ABS material remains stable in elevated environments. This attribute is vital for charging pile housings, as they generate heat during operation.

Strength and Toughness:

The material boasts excellent strength and toughness, withstanding impacts and external forces to enhance the durability and damage resistance of the charging pile housing.

Weather Resistance:

The flame retardant PC/ABS material demonstrates excellent weather resistance outdoors, resisting UV exposure and oxidation to maintain stability and longevity.

Chemical Resistance:

PC/ABS material showcases good chemical resistance, enduring certain corrosive substances while preserving its performance.

Superior Processability:

The flame retardant PC/ABS material is easily molded and processed, meeting the complex shape and detail requirements of charging pile housings to improve production efficiency.

By utilizing TOPONEW’s flame retardant PC/ABS material for manufacturing new energy charging pile housings, safety, durability, and aesthetic appeal are elevated, ensuring stability and reliability during usage. This innovative material choice signifies a commitment to quality and performance in the new energy vehicle charging infrastructure.