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1. Product features
Aluminum alloy die-casting mold is one of the core equipment for producing aluminum alloy die-casting parts. Its design, manufacturing and use are directly related to the quality and production efficiency of die castings. Aluminum alloy die-casting molds generally consist of upper mold, lower mold, ejector pin, core, core pulling mechanism and cooling system.
1. High precision requirements: Aluminum alloy die-casting molds require high precision in manufacturing, generally requiring micron-level precision.
2. Long service life: The service life of aluminum alloy die-casting molds is required to be long, generally more than hundreds of thousands of times.
3. Good fatigue resistance: Aluminum alloy die-casting molds need to withstand repeated stress changes, so they need to have good fatigue resistance.
4. Good corrosion resistance: Aluminum alloy die-casting molds need to withstand high temperature, high pressure, and highly corrosive working environments, so they need to have good corrosion resistance.
2. Application fields
Aluminum alloy die-casting molds have a wide range of applications, including:
1. Automobile field: Aluminum alloy die castings are an indispensable part of automobile manufacturing and are widely used in automobile engines, gearboxes, chassis and other parts.
2. Electronic field: Aluminum alloy die-casting parts are also widely used in the electronic field, such as communication equipment, computers, household appliances, etc.
3. Mechanical field: Aluminum alloy die castings are also widely used in the mechanical field. fields, such as machine tools, hydraulic components, bearings, etc.
3. Production process
The production process of aluminum alloy die-casting molds generally includes the following links:
1. Design link: Mold design according to customer requirements, including mold structure, size, materials, etc.
2. Manufacturing process: Mold manufacturing according to design drawings, including mechanical processing, benchwork assembly, electrical system installation, etc.
3. Debugging: Debugging is carried out after mold manufacturing is completed, including mold trial, mold repair, parameter adjustment, etc.
4. Usage link: Production and use after debugging is completed, and continuous production in accordance with the production plan and product requirements.
5. Maintenance link: Carry out daily maintenance and upkeep of the mold to ensure the normal operation and service life of the mold.
