| Advertisement No: | #00248106 |
| Category: | Metal Part Manufacturing Service |
| Brand: | Unimek |
| Model Type: | UNMK-MP4 |
| Product Type: | Service |
| Product Status: | Service |
| Location: | Yeşiloba Mah. / Seyhan / Adana |
| Sales Detail: | Bank Transfer, Negotiated |
Rotary Joint Metal Part Manufacturing Rotary Joint Metal Part Manufacturing Process 1. Design and Planning Engineering Design: The design of rotary joint parts is based on engineering calculations that consider working conditions, pressure, and temperature requirements. CAD Drawings and Prototyping: Designs are drawn with CAD software and prepared for production using 3D modeling. Additionally, the accuracy of the design is tested with prototyping. 2. Material Selection High-Strength Metal Materials: Materials such as stainless steel, aluminum alloys, and carbon steel are used to increase the durability and temperature tolerance of rotary joint parts. Sealing Elements: Sealing elements (e.g., O-rings) are selected with the right materials to ensure the proper functioning of the parts. 3. Production Process CNC Machining and Cutting: Rotary joint metal parts are processed with precise measurements using CNC machines. This process ensures that the part surfaces are smooth and accurate. Casting and Forming: If larger and more complex parts are needed, parts are shaped using casting methods. Mechanical Processing: Necessary mechanical processes are applied to the parts, which may include drilling, milling, turning, and other processes. 4. Welding and Assembly Welding Processes: If the part consists of multiple components, strong joints are created using welding methods. This process provides durability to parts operating under high temperatures. Assembly: All components of the rotary joint are assembled, and connections are securely made. 5. Heat Treatment and Hardening Hardening: Heat treatment is applied to harden the metal, increasing the resistance of parts against wear. Cooling: After heat treatment, parts are cooled in a controlled manner to preserve the durability and flexibility of the metal. 6. Surface Finishing and Final Inspection Coating and Surface Polishing: Parts can undergo processes such as galvanization, passivation, or chrome plating to protect against corrosion. Additionally, grinding and sanding are done to ensure surface smoothness. Quality Control: All produced rotary joint metal parts undergo final quality control tests, including dimensional accuracy, sealing performance, and durability. Features of Rotary Joint Metal Parts High Durability and Resilient Materials: Manufactured using high-strength materials like carbon steel and stainless steel, providing safe long-term use under high temperature and pressure. Sealing Performance: Sealing elements are placed with high precision to prevent leakage of liquids or gases, ensuring high efficiency. High Temperature and Pressure Resistance: Rotary joints are designed and manufactured to withstand especially high temperature and pressure conditions. Easy Maintenance and Replacement: Design of parts allows for easy maintenance and repair. Additionally, seals and sealing elements can be replaced over time. Longevity and Reliability: With durable metal materials and sealing elements, rotary joints offer long-lasting and reliable solutions. Applications of Rotary Joint Metal Parts Automotive Industry: Used in automotive production, especially in engines and radiator systems, for high temperature and pressure applications. Chemical Industry: Utilized in chemical processing plants to ensure secure sealing during the transfer of liquids and gases. Petrochemical Industry: Used in high-temperature pipelines and reactors to provide liquid or gas sealing. Energy and Electricity Generation: Applied in thermal power plants, hydroelectric power plants, and other energy production facilities for the transfer of liquid or steam. Food and Beverage Industry: Provides safe liquid transport in systems operating at high temperatures and meeting hygiene requirements. Advantages High Performance and Efficiency: Ensures safe and efficient operation under high temperature and pressure conditions. Sealing and Security: Prevents liquid and gas leaks with high-quality sealing elements. Longevity: Offers long-term use with stainless steel and other durable materials. Flexibility: Solutions tailored to various sectors, providing a wide range of applications.
Rotary Joint Metal Part Manufacturing Rotary Joint Metal Part Manufacturing Process 1. Design and Planning Engineering Design: The design of rotary joint parts is based on engineering calculations that consider working conditions, pressure, and temperature requirements. CAD Drawings and Prototyping: Designs are drawn with CAD software and prepared for production using 3D modeling. Additionally, the accuracy of the design is tested with prototyping. 2. Material Selection High-Strength Metal Materials: Materials such as stainless steel, aluminum alloys, and carbon steel are used to increase the durability and temperature tolerance of rotary joint parts. Sealing Elements: Sealing elements (e.g., O-rings) are selected with the right materials to ensure the proper functioning of the parts. 3. Production Process CNC Machining and Cutting: Rotary joint metal parts are processed with precise measurements using CNC machines. This process ensures that the part surfaces are smooth and accurate. Casting and Forming: If larger and more complex parts are needed, parts are shaped using casting methods. Mechanical Processing: Necessary mechanical processes are applied to the parts, which may include drilling, milling, turning, and other processes. 4. Welding and Assembly Welding Processes: If the part consists of multiple components, strong joints are created using welding methods. This process provides durability to parts operating under high temperatures. Assembly: All components of the rotary joint are assembled, and connections are securely made. 5. Heat Treatment and Hardening Hardening: Heat treatment is applied to harden the metal, increasing the resistance of parts against wear. Cooling: After heat treatment, parts are cooled in a controlled manner to preserve the durability and flexibility of the metal. 6. Surface Finishing and Final Inspection Coating and Surface Polishing: Parts can undergo processes such as galvanization, passivation, or chrome plating to protect against corrosion. Additionally, grinding and sanding are done to ensure surface smoothness. Quality Control: All produced rotary joint metal parts undergo final quality control tests, including dimensional accuracy, sealing performance, and durability. Features of Rotary Joint Metal Parts High Durability and Resilient Materials: Manufactured using high-strength materials like carbon steel and stainless steel, providing safe long-term use under high temperature and pressure. Sealing Performance: Sealing elements are placed with high precision to prevent leakage of liquids or gases, ensuring high efficiency. High Temperature and Pressure Resistance: Rotary joints are designed and manufactured to withstand especially high temperature and pressure conditions. Easy Maintenance and Replacement: Design of parts allows for easy maintenance and repair. Additionally, seals and sealing elements can be replaced over time. Longevity and Reliability: With durable metal materials and sealing elements, rotary joints offer long-lasting and reliable solutions. Applications of Rotary Joint Metal Parts Automotive Industry: Used in automotive production, especially in engines and radiator systems, for high temperature and pressure applications. Chemical Industry: Utilized in chemical processing plants to ensure secure sealing during the transfer of liquids and gases. Petrochemical Industry: Used in high-temperature pipelines and reactors to provide liquid or gas sealing. Energy and Electricity Generation: Applied in thermal power plants, hydroelectric power plants, and other energy production facilities for the transfer of liquid or steam. Food and Beverage Industry: Provides safe liquid transport in systems operating at high temperatures and meeting hygiene requirements. Advantages High Performance and Efficiency: Ensures safe and efficient operation under high temperature and pressure conditions. Sealing and Security: Prevents liquid and gas leaks with high-quality sealing elements. Longevity: Offers long-term use with stainless steel and other durable materials. Flexibility: Solutions tailored to various sectors, providing a wide range of applications.
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