News - Shenzhen Perfect Precision Product Co., Ltd. of page 78

Wide application and advantages of PC materials in injection molding

Wide application and advantages of PC materials in injection molding 1. Introduction to PC material: Polycarbonate (PC) is a high-performance engineering plastic with excellent transparency, strength and heat resistance, and is widely used in the field of injection molding. 2. Features of PC material: PC has high strength, impact resistance, heat resistance and excellent transparency, making it an important material in injection molding. 3. Application of PC materials in the manufacture of electronic products: PC materials are widely used in electronic product casings, display panels, mobile phone cases and other components, with excellent transparency and heat resistance. 4. Application of PC materials in automobile manufacturing: PC materials are often used in the manufacture of automotive lamps, windows, interior parts and other components, with impact resistance, high-temperature resistance and excellent optical properties. 5. Application of PC materials in the manufacture of household items: Household items made of PC materials, such as cups, tableware, kettles, etc., have the characteristics of heat resistance, impact resistance and high transparency. 6. Advantages and development prospects of PC materials: PC materials have a wide range of application fields and good processing performance, and are expected to continue to develop and innovate in injection molding in the future

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Wide application and advantages of PA materials in injection molding

Wide application and advantages of PA materials in injection molding 1. Introduction to PA material: Polyamide (PA) is a common engineering plastic with excellent physical properties and chemical stability, and is widely used in the field of injection molding. 2. Characteristics of PA material: PA has high strength, wear resistance, corrosion resistance and excellent high-temperature resistance, making it an important material in injection molding. 3. Application of PA materials in automobile manufacturing: PA materials are often used in the manufacture of auto parts, such as intake pipes, water tanks, braking systems, etc., and have the characteristics of heat resistance, wear resistance and corrosion resistance. 4. Application of PA materials in the manufacture of electronic products: PA materials are widely used in housings, sockets, connectors and other components of electronic products, and have excellent insulation properties and high-temperature resistance. 5. Application of PA materials in the manufacture of household items: Household items made of PA materials, such as chairs, tables, storage boxes, etc., have the characteristics of high strength, durability and beauty. 6. Advantages and development prospects of PA materials: PA materials have a wide range of application fields and good processing performance, and are expected to continue to develop and innovate in injection molding in the future.

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Wide application and advantages of PEEK material in injection molding

Wide application and advantages of PEEK material in injection molding 1. Introduction to PEEK material: Polyetheretherketone (PEEK) is a high-performance engineering plastic with excellent high-temperature resistance, chemical corrosion resistance and mechanical properties, and is widely used in the field of injection molding. 20 Features of PEEK material: PEEK has high strength, low coefficient of friction, excellent insulation performance and wear resistance, making it an ideal material for injection molding. 3. The application of PEEK materials in the aerospace field: PEEK materials are widely used in the manufacturing of aerospace fields, such as the manufacture of engine components, fuel systems, valves and seals, etc., with the characteristics of high-temperature resistance and corrosion resistance. 4. Application of PEEK materials in medical device manufacturing: PEEK materials are widely used in medical device manufacturing, such as artificial joints, implants, surgical tools, etc., and are biocompatible and resistant to disinfection. 5. Application of PEEK materials in automobile manufacturing: PEEK materials are often used in the manufacture of automobile parts, such as sensors, electrical connectors, braking systems, etc., and have the characteristics of high-temperature resistance and wear resistance. 6. Advantages and development prospects of PEEK materials: PEEK materials have excellent performance and a wide range of applications, and are expected to further develop and innovate in injection molding in the future.

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Application range and advantages of POM materials in injection molding

Application range and advantages of POM materials in injection molding 1. Introduction to POM material: Polyoxymethylene (POM) is an engineering plastic with excellent physical properties and chemical stability, which is widely used in injection molding. 2. Features of POM material: POM has high hardness, high rigidity, low friction coefficient, excellent wear resistance and chemical corrosion resistance, making it an ideal material for injection molding. 3. The application of POM materials in automobile manufacturing: POM materials are often used in the manufacture of auto parts, such as gears, bearings, fuel injectors, etc. of the transmission system, which have the characteristics of wear resistance, corrosion resistance and low noise. 4. Application of POM materials in the manufacture of electronic products: POM materials are widely used in connectors, switches, sockets and other components of electronic products, and have excellent electrical insulation properties and high-temperature resistance. 5. Application of POM materials in the manufacture of household items: Household items made of POM materials, such as door handles, faucets, cabinet handles, etc., are wear-resistant, corrosion-resistant and durable. 6. Advantages and development prospects of POM materials: POM materials have good mechanical properties, chemical stability and processing performance, and have broad application prospects in injection molding in the future.

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Injection molding technology is increasingly used in manufacturing

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07/20

Advantages of mill-turn technology include

Advantages of mill-turn technology include: Reduce process and equipment investment and improve production efficiency. Improve machining accuracy and surface quality. Workpieces with complex shapes can be processed, improving the flexibility and diversity of processing. Reduce workpiece clamping and position errors during machining.

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07/20

The process of machining stainless steel

Machining stainless steel is a common manufacturing process used to perform machining operations such as cutting, milling, drilling, etc. on stainless steel materials to create parts or products of the desired shape and size. The process of machining stainless steel is similar to machining other metal materials, mainly including the following steps: Material preparation: choose a suitable stainless steel material, usually a stainless steel alloy with better corrosion resistance, such as 304, 316, etc. Make sure the surface of the material is clean, and carry out the necessary fixing and clamping to ensure stability during processing. Tool selection: Select the appropriate tool according to the processing requirements and the characteristics of the stainless steel material. Stainless steel has high hardness and wear resistance, so cemented carbide tools with good cutting performance are usually selected. Processing parameter setting: According to the hardness and processing requirements of the stainless steel material, set the appropriate processing parameters, such as cutting speed, feed speed, cutting depth, etc. The selection of these parameters needs to be adjusted according to the specific situation to ensure the processing effect and workpiece quality. Processing operations: According to processing requirements and design drawings, use machine tools for cutting, milling, drilling and other operations. During machining, it is necessary to ensure good lubrication and cooling of the tool and workpiece to prevent overheating and tool wear. Inspection and adjustment: After machining is complete, the machined part is inspected to ensure that its dimensions, surface quality and geometry meet the requirements. Make necessary adjustments and corrections, if necessary. The key to machining stainless steel is to select appropriate tools and processing parameters to overcome the hardness and wear resistance of stainless steel materials and ensure processing efficiency and workpiece quality. At the same time, attention should be paid to lubrication and cooling during processing to improve the cutting effect and prolong tool life.

2023

07/20

The difference between aluminum and stainless steel?

Aluminum and stainless steel are two common metallic materials that have some distinct differences in their properties and applications. Composition: Aluminum is a chemical element with the chemical symbol Al, while stainless steel is an alloy mainly composed of iron, chromium and other elements. Density: Aluminum has a low density of about 2.7 grams per cubic centimeter and is relatively light. The density of stainless steel is higher, about 7.9 grams per cubic centimeter. Corrosion resistance: Stainless steel has good corrosion resistance and can resist the erosion of corrosive media such as oxidation, acidity and alkalinity. Aluminum will form an oxide film in the air, which has a certain anti-corrosion effect, but it is easily corroded in some acidic environments. Strength: Stainless steel has high strength, especially heat-resistant and corrosion-resistant stainless steel, which has good mechanical properties. Aluminum has relatively low strength, but its strength can be increased through alloying and heat treatment. Conductivity: Aluminum has good electrical conductivity and is widely used in power transmission and electronics manufacturing. The conductivity of stainless steel is poor and usually requires special treatment to achieve a certain conductive effect. Application fields: Aluminum is often used in aerospace, automobile, construction, packaging and other fields, especially suitable for occasions with lightweight design and high conductivity requirements. Stainless steel is widely used in construction, chemical industry, food processing, medical equipment, and other fields, and is mainly used in occasions requiring corrosion resistance and strength. In general, aluminum has the characteristics of lightweight, good electrical conductivity, and machinability, while stainless steel has high strength and corrosion resistance. According to the specific application requirements and material performance requirements, the best effect can be achieved by selecting the appropriate material.

2023

07/20

What is Aluminum 6061?

What is Aluminum 6061? Aluminum 6061 is a common aluminum alloy and one of the most commonly used aluminum alloys. It belongs to the aluminum-magnesium-silicon series of alloys and contains about 1% magnesium and 0.6% silicon. Aluminum 6061 alloy has excellent mechanical properties and processing properties and is widely used in various fields. Aluminum 6061 alloy has high strength, good corrosion resistance and weldability. Its tensile strength has reached 240MPa, which is a medium-strength aluminum alloy. In addition, aluminum 6061 also has excellent processing performance and can be shaped by milling, drilling, cutting and other processing techniques, and is suitable for the manufacture of various complex workpieces. Aluminum 6061 alloy is widely used in aerospace, automobiles, bicycles, ships, electronic equipment and other fields. In the field of aerospace, aluminum 6061 alloy is used to make aircraft parts, missile casings, etc. In the field of automobiles and bicycles, aluminum 6061 alloy is used to manufacture body, frame and other components to improve the lightweight and fuel economy of the vehicle. In addition, aluminum 6061 is also widely used in electronic equipment casings, radiators, and other components. In conclusion, Al 6061 alloy exhibits wide application potential in various fields due to its high strength, corrosion resistance and machinability. It provides a reliable material choice for manufacturing and innovation in a wide variety of industries.

2023

07/20

What is Aluminum 6063?

What is Aluminum 6063? Aluminum 6063 is a common aluminum alloy with good machinability and decoration. It is a member of the aluminum-silicon alloy family and contains about 0.7% silicon. Aluminum 6063 alloy has excellent corrosion resistance, oxidation resistance and weldability, and is suitable for various processing and application fields. Aluminum 6063 alloy is often used in construction and decoration fields. It is widely used in the manufacture of door and window frames, curtain walls, aluminum alloy profiles, exhibition display systems, etc. The advantages of aluminum 6063 alloys include lightweight, corrosion resistance, easy processing and strong plasticity, making it an ideal choice for the construction and decoration industries. In addition, aluminum 6063 alloy is also commonly used in electronics, transportation, furniture and industrial equipment and other fields. In electronics, it is used in the manufacture of heat sinks, housings and electronic devices. In the field of transportation, aluminum 6063 alloys is used to manufacture bicycle frames, auto parts and so on. In the field of furniture and industrial equipment, it is used in the manufacture of various structures and supports. In short, aluminum 6063 alloy is a common aluminum alloy, which plays an important role in construction, decoration and other fields due to its good machinability and decorative properties.

2023

07/20

China Shenzhen Perfect Precision Product Co., Ltd. company news

Wide application and advantages of PC materials in injection molding

Wide application and advantages of PA materials in injection molding

Wide application and advantages of PEEK material in injection molding

Application range and advantages of POM materials in injection molding

Injection molding technology is increasingly used in manufacturing

Advantages of mill-turn technology include

The process of machining stainless steel

The difference between aluminum and stainless steel?

What is Aluminum 6061?

What is Aluminum 6063?

CNC Turning Parts

CNC Milling Parts

CNC Turning Milling Parts

CNC Machined Aluminum Parts

CNC Stainless Steel Parts

Machining Plastic Parts

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