How do Precision Electronics Micro Screws molds differ from other molds?

2025,08,28

Precision Electronics Micro Screws molds differ from other molds in many aspects, primarily in terms of process, materials, structure, adaptability, manufacturing cost, application areas, and product performance. The following is a detailed comparative analysis:

1. Different Processes

Precision Electronics Micro Screws molds: Liquid metal is injected into a mold and pressurized to flow, filling the mold cavity and forming the part. This process involves high pressure and high speed filling, followed by rapid solidification, resulting in a casting.

Other molds (such as injection molds and blow molds) typically do not involve pressurized liquid metal flow and rapid solidification. For example, injection molds inject molten thermoplastic material into the mold, where it solidifies upon cooling to form the desired plastic product.

2. Different Materials

Precision Electronics Micro Screws molds: Because they must withstand deformation caused by high temperatures and high pressures, they are typically made of steel or other wear-resistant materials to ensure the precision and surface quality of the produced parts.

Other molds: Material selection is relatively flexible. For example, injection molds are often made of aluminum alloys, steel, and other materials to reduce manufacturing costs and improve production efficiency. 3. Different Structures

Precision Electronics Micro Screws: Their structures are relatively complex, requiring the addition of lubrication, water spray, and extrusion systems to the mold to ensure a smooth die-casting process and prevent damage from hot fluid pressure.

Other molds: Their structures are relatively simple and may not require these complex auxiliary systems. For example, injection molds primarily focus on controlling injection speed and pressure.

Author:

Mr. yjfastener

E-mail:

hou@citool.com

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+8615826187211