Presentation of the equipment's characteristics

The MIM Vacuum Sintering Furnace is a high-performance device designed specifically for the Metal Injection Molding (MIM) process, ideal for the sintering of high-precision metal components. The furnace utilizes heating elements made of molybdenum, tungsten, or graphite, supporting both resistance and induction heating methods. It offers selectable maximum temperatures of 1300°C, 1600°C, 1800°C, 2200°C, and 2400°C to accommodate various material requirements. The system can be customized with either top or bottom material discharge mechanisms and can be configured with either medium or high vacuum levels to meet different sintering environments. Additionally, the furnace is equipped with an efficient rapid cooling system, ensuring high productivity and excellent sintering quality. It is widely used in aerospace, medical devices, electronics, and high-end manufacturing industries.

processed samples

Product Details: MIM Vacuum Sintering Furnace

The VS MIM Vacuum Sintering Furnace is a high-performance device specifically designed for the Metal Injection Molding (MIM) industry. It ensures excellent mechanical properties and density in sintered metal components, making it widely applicable in aerospace, medical devices, electronics, and precision manufacturing.

Features:

  1. Versatile Heating Options: Utilizes molybdenum, tungsten, or graphite heating elements, supporting both resistance and induction heating methods to meet various process needs.
  2. High-Temperature Capability: Offers selectable maximum temperatures of 1300°C, 1600°C, 1800°C, 2200°C, and 2400°C, suitable for sintering different types of metal powders.
  3. Flexible Loading Mechanism: Can be customized with top or bottom material discharge systems to enhance production efficiency.
  4. Optional Vacuum Configurations: Supports both medium and high vacuum environments to accommodate various sintering requirements.
  5. Rapid Cooling System: Equipped with an efficient cooling system to shorten production cycles and ensure product quality and consistency.

Advantages:

  • Energy Efficiency: Optimized thermal design minimizes energy consumption while ensuring uniform heating and high thermal efficiency.
  • Precision Control: Advanced temperature and atmosphere control systems enable precise sintering, enhancing product performance.
  • Reliable & Stable: Robust construction allows for long-term continuous operation with low maintenance costs.
  • Broad Application Range: Suitable for sintering stainless steel, titanium alloys, high-temperature alloys, and other MIM materials.
ModelEffective Heating Area (mm)Max Temperature (°C)Max Vacuum Pressure (Pa)Avg Temperature (°C)Pressure Rise (Pa/h)Heat Power (kw)Weight (kg)
GS112120×120×20016002×10-3±5≤0.67305
GS223200×200×30016002×10-3±5≤0.674515
GS334300×300×40016002×10-3±5≤0.676050
GS446400×400×60016002×10-3±5≤0.6790100
GS557500×500×70016002×10-3±5≤0.67150150
GS669600×600×90016002×10-3±5≤0.67180300
GS7712700×700×120016002×10-3±5≤0.67240500
GS8815800×800×150016002×10-3±5≤0.67300800