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Injection Plastic Over Mold Hardware Connector Part

Injection Molding

Injection Plastic Over Mold Hardware Connector Part

It adopts overmolding technology, a process that combines different materials (usually plastic and metal) together. This process can be accomplished through injection molding, casting, or coating, ensuring a tight bond between the substrate and the coating layer to form an integrated whole. This technology is widely used in many industries, particularly in the manufacture of components that require wear resistance, corrosion resistance, and insulation properties.

    Product introduction

    This product is a high-performance component manufactured using advanced overmolding technology, perfectly combining the strength of metal with the durability of plastic. The exterior is smoothly encased in black plastic, with embedded metal threads inside, offering excellent wear resistance and corrosion resistance while ensuring secure and stable connections. Its unique structural design allows it to perform exceptionally well even in high-stress environments, making it ideal for critical connection points in various industrial and mechanical equipment. This product not only focuses on functionality but also emphasizes aesthetic appeal and comfortable handling, making it your top choice when quality and reliability are paramount.

    Product Centre

    Production technology

    • Two-shot injection molding: This is one of the most common overmolding processes. First, the substrate (usually hard plastic or metal) is manufactured using injection molding technology. Then, the substrate is placed into another mold, where a layer of soft plastic or rubber material is injected to form the overmolded structure. This method is typically used for producing multi-functional and complex-shaped parts.

    • Direct coating: In some cases, the overmolded layer can be directly applied to the substrate surface through casting or spraying. This method is suitable for large components or applications requiring a specific coating thickness.

    • Thermal bonding: This process involves heating the overmolding material to bond it to the substrate surface. It is commonly used for rubber overmolding.

    Product advantages

    • Enhanced Wear Resistance: The overmolded layer can protect the substrate from mechanical wear, thereby extending the lifespan of the component.

    • Improved Corrosion Resistance: Certain overmolding materials offer excellent corrosion resistance, making them suitable for environments involving chemical exposure.

    • Increased Insulation: In electronic components, overmolding technology provides excellent electrical insulation, protecting internal components from external environmental impacts.

    • Improved Feel and Appearance: Overmolded products typically have a smoother surface, better tactile feel, and the color and texture can be customized as needed.