Vacuum Atmosphere Furnace

Vacuum atmosphere furnaces, as equipment for conducting high-temperature treatments under vacuum or specific atmosphere conditions, leverage their advantages such as precise temperature control, atmosphere control, and vacuum environment, and are widely applied in various industrial and scientific research fields.

▶ APPLICATIONS

• Metal material processing: Melting, refining, continuous casting and heat treatment of steel, non-ferrous metals and their alloys. Advantages:
• Ceramic and Glass Manufacturing: High-temperature sintering and heat treatment of ceramic and glass products.
• Powder Metallurgy: Rapid sintering and densification of powder metallurgy products.
• Electronic material production: Sintering and metallization of electronic packaging materials, connection between chips and substrates.
• Research and Development of New Energy Materials: Synthesis of cathode materials for lithium-ion batteries, processing of silicon wafers for solar cells.
• Aerospace and High-End Manufacturing: Melting, heat treatment and annealing of key materials such as high-temperature alloys and titanium alloys.
• Semiconductor Manufacturing: Sintering, annealing and diffusion of semiconductor chips.
• Precision Casting: Heat treatment of molds and annealing of castings.
• Materials Science Research: Research on material properties, structure and phase transitions.
• Chemical Engineering and Fire-resistant Materials: Sintering and chemical analysis of refractory materials.
• Machinery and Building Materials: Heat treatment of mechanical parts and performance optimization of building materials.
• Medicine and Biomedical Materials: Titanium alloy heat treatment for medical devices and synthesis of biomaterials.

▶ FEATURES

• Compact structure: The shape is usually box-like, occupying relatively less space and being easy to install in laboratories or production workshops.
• Varied atmospheres: Various protective or reactive gases such as nitrogen, hydrogen, and carbon monoxide can be introduced to meet different process requirements.
• Uniform temperature: Through reasonable layout of heating elements and design of gas flow inside the furnace, good temperature uniformity can be achieved.
• Widely applicable: Suitable for thermal treatment processes such as sintering, annealing, quenching, and tempering of materials, as well as the preparation and processing of ceramics, powder metallurgy, electronic components, etc.
• Convenient operation: Generally equipped with an intuitive control panel, facilitating the setting and monitoring of temperature, atmosphere, etc.
• Safety: Features multiple safety protection designs, such as overheat protection and gas leakage detection.
• Energy-saving performance: Utilizes high-performance insulation materials and insulation design, with low surface temperature, achieving significant energy-saving effects.
• Precise temperature control: High-precision temperature control system ensures the accuracy of the heat treatment process.
• Uniform heating: Optimized furnace design ensures uniform heating of materials.