| Product Introduction | High Precision aluminum heat sink |
| MATERIAL | aluminum 6063-T5 |
| SIZE | LESS THAN 400MM*400MM |
| SURFACE TREATMENT(ANDOZING) | NATURE and ANDOZING |
| PACKING | BAG+box |
| MANUFACTURE PROCESS | Aluminum alloy radiator profiles in the design and manufacturing process, our factory pays special attention to the following aspects of the requirements and considerations: 1. Material selection and performance requirements Thermal conductivity: Aluminum alloy itself has excellent thermal conductivity and is suitable for radiator manufacturing. Ensure that aluminum alloy materials with good thermal conductivity are selected to improve heat dissipation efficiency. Corrosion resistance: Radiators are usually in high humidity and high temperature environments, which requires the material to have good corrosion resistance, which can be further enhanced by surface treatment (e.g. anodizing, electrophoretic coating, etc.). Strength and stiffness: the radiator will be subjected to certain pressure and vibration during operation, so the aluminum alloy material needs to have sufficient strength and stiffness to ensure its structural stability and safety. 2. Design and manufacturing requirements Heat sink design: The design of heat sink should take into account the heat dissipation efficiency and air circulation, usually adopts the flake structure to ensure the reasonableness of the flake spacing and the number of flakes in order to achieve the best heat dissipation effect. Welding process: Aluminum alloy radiator is usually assembled by welding process, which requires excellent welding process to avoid welding defects and cracks and ensure welding strength and sealing. Sealing: The sealing performance of the radiator has a significant impact on its working efficiency and service life, and it is necessary to ensure that the welded joints and connections are well sealed to prevent water and gas leakage. 3. Surface treatment and painting Anodizing: In order to improve the corrosion resistance and aesthetics of the radiator surface, anodizing treatment can be carried out to form a hard oxide film and enhance the surface hardness and wear resistance. Powder Coating: For radiators that require specific colors or visual effects, powder coating can provide a variety of color choices and weather resistance to ensure long-term beauty and protection. 4. Quality control and inspection Production process control: Establish strict production process control procedures, including raw material inspection, extrusion or molding process control, welding quality control, etc., to ensure that each step of the process meets the design requirements and standards. Finished product inspection: Conduct comprehensive inspection and testing of finished radiator products, including appearance inspection, size measurement, sealing test, pressure resistance test, etc., to ensure stable and safe product quality. 5. Environmental and safety requirements Environmental requirements: Select environmentally friendly materials and processes to ensure that the production process does not produce harmful substances and pollution, in line with environmental regulations and customers' environmental requirements. Safety requirements: Ensure that the radiator design and manufacturing comply with safety standards, such as preventing sharp edges and corners, providing safety instructions, etc., to protect the safety of operators and end users. In summary, the manufacturing process of aluminum alloy radiator profiles needs to strictly follow the requirements and precautions in a number of areas, such as material selection, design and manufacturing, surface treatment, quality control, etc., in order to ensure that the products have excellent heat dissipation performance, durability and safety. |
| Product Introduction | High Precision aluminum heat sink |
| MATERIAL | aluminum 6063-T5 |
| SIZE | LESS THAN 400MM*400MM |
| SURFACE TREATMENT(ANDOZING) | NATURE and ANDOZING |
| PACKING | BAG+box |
| MANUFACTURE PROCESS | Aluminum alloy radiator profiles in the design and manufacturing process, our factory pays special attention to the following aspects of the requirements and considerations: 1. Material selection and performance requirements Thermal conductivity: Aluminum alloy itself has excellent thermal conductivity and is suitable for radiator manufacturing. Ensure that aluminum alloy materials with good thermal conductivity are selected to improve heat dissipation efficiency. Corrosion resistance: Radiators are usually in high humidity and high temperature environments, which requires the material to have good corrosion resistance, which can be further enhanced by surface treatment (e.g. anodizing, electrophoretic coating, etc.). Strength and stiffness: the radiator will be subjected to certain pressure and vibration during operation, so the aluminum alloy material needs to have sufficient strength and stiffness to ensure its structural stability and safety. 2. Design and manufacturing requirements Heat sink design: The design of heat sink should take into account the heat dissipation efficiency and air circulation, usually adopts the flake structure to ensure the reasonableness of the flake spacing and the number of flakes in order to achieve the best heat dissipation effect. Welding process: Aluminum alloy radiator is usually assembled by welding process, which requires excellent welding process to avoid welding defects and cracks and ensure welding strength and sealing. Sealing: The sealing performance of the radiator has a significant impact on its working efficiency and service life, and it is necessary to ensure that the welded joints and connections are well sealed to prevent water and gas leakage. 3. Surface treatment and painting Anodizing: In order to improve the corrosion resistance and aesthetics of the radiator surface, anodizing treatment can be carried out to form a hard oxide film and enhance the surface hardness and wear resistance. Powder Coating: For radiators that require specific colors or visual effects, powder coating can provide a variety of color choices and weather resistance to ensure long-term beauty and protection. 4. Quality control and inspection Production process control: Establish strict production process control procedures, including raw material inspection, extrusion or molding process control, welding quality control, etc., to ensure that each step of the process meets the design requirements and standards. Finished product inspection: Conduct comprehensive inspection and testing of finished radiator products, including appearance inspection, size measurement, sealing test, pressure resistance test, etc., to ensure stable and safe product quality. 5. Environmental and safety requirements Environmental requirements: Select environmentally friendly materials and processes to ensure that the production process does not produce harmful substances and pollution, in line with environmental regulations and customers' environmental requirements. Safety requirements: Ensure that the radiator design and manufacturing comply with safety standards, such as preventing sharp edges and corners, providing safety instructions, etc., to protect the safety of operators and end users. In summary, the manufacturing process of aluminum alloy radiator profiles needs to strictly follow the requirements and precautions in a number of areas, such as material selection, design and manufacturing, surface treatment, quality control, etc., in order to ensure that the products have excellent heat dissipation performance, durability and safety. |
