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| ZSJ Single-Chamber Vacuum Sintering Furnace | ||||||||
| Model | Valid zone | Loading Capacity(kg) | Maximum temperature (℃) | Heating power (kw) | Ultimate vacuum (Pa) | Gas cooling pressure (bar) | Temperature Uniformity (±℃) | Pressure Rising Rate (pa/h) |
| ZSJ-80 | 450x300x300 | 100 | 1600 | 80 | 5x10-3or4x10-1 | 2 | 5 | 0.5 |
| ZSJ-120 | 600x400x400 | 200 | 1600 | 120 | 5x10-3or4x10-1 | 2 | 5 | 0.5 |
| ZSJ-150 | 700x500x500 | 300 | 1600 | 150 | 5x10-3or4x10-1 | 2 | 5 | 0.5 |
| ZSJ-220 | 900X600X600 | 500 | 1600 | 220 | 5x10-3or4x10-1 | 2 | 5 | 0.5 |
| ZSJ-300 | 1200X600X600 | 800 | 1600 | 200 | 5x10-3or4x10-1 | 2 | 5 | 0.5 |
Applications:
Powder Metallurgy: Vacuum sintering furnaces are extensively used in powder metallurgy processes to sinter metal powders and produce metal components with high density, strength, and dimensional accuracy.
Ceramic Manufacturing: The furnace is utilized in the production of advanced ceramics, such as oxide ceramics, carbides, nitrides, and composites. It helps achieve densification and enhances the mechanical properties of ceramic materials.
Semiconductor Industry: Vacuum sintering furnaces are employed in the semiconductor industry for sintering processes related to the production of ceramic substrates, electronic components, and semiconductor devices.
Tool and Die Manufacturing: The furnace is used in the production of tooling and dies, such as cutting tools, molds, and inserts, to achieve high-density and high-strength components.
Aerospace and Automotive Industries: Vacuum sintering is utilized in the production of parts for aerospace and automotive applications, including engine components, bearings, gears, and structural parts.
The vacuum sintering furnace offers precise control over the sintering process, resulting in high-quality and reliable sintered products. Its ability to create a controlled vacuum environment ensures the removal of impurities and facilitates the production of components with superior mechanical properties.
| ZSJ Single-Chamber Vacuum Sintering Furnace | ||||||||
| Model | Valid zone | Loading Capacity(kg) | Maximum temperature (℃) | Heating power (kw) | Ultimate vacuum (Pa) | Gas cooling pressure (bar) | Temperature Uniformity (±℃) | Pressure Rising Rate (pa/h) |
| ZSJ-80 | 450x300x300 | 100 | 1600 | 80 | 5x10-3or4x10-1 | 2 | 5 | 0.5 |
| ZSJ-120 | 600x400x400 | 200 | 1600 | 120 | 5x10-3or4x10-1 | 2 | 5 | 0.5 |
| ZSJ-150 | 700x500x500 | 300 | 1600 | 150 | 5x10-3or4x10-1 | 2 | 5 | 0.5 |
| ZSJ-220 | 900X600X600 | 500 | 1600 | 220 | 5x10-3or4x10-1 | 2 | 5 | 0.5 |
| ZSJ-300 | 1200X600X600 | 800 | 1600 | 200 | 5x10-3or4x10-1 | 2 | 5 | 0.5 |
Applications:
Powder Metallurgy: Vacuum sintering furnaces are extensively used in powder metallurgy processes to sinter metal powders and produce metal components with high density, strength, and dimensional accuracy.
Ceramic Manufacturing: The furnace is utilized in the production of advanced ceramics, such as oxide ceramics, carbides, nitrides, and composites. It helps achieve densification and enhances the mechanical properties of ceramic materials.
Semiconductor Industry: Vacuum sintering furnaces are employed in the semiconductor industry for sintering processes related to the production of ceramic substrates, electronic components, and semiconductor devices.
Tool and Die Manufacturing: The furnace is used in the production of tooling and dies, such as cutting tools, molds, and inserts, to achieve high-density and high-strength components.
Aerospace and Automotive Industries: Vacuum sintering is utilized in the production of parts for aerospace and automotive applications, including engine components, bearings, gears, and structural parts.
The vacuum sintering furnace offers precise control over the sintering process, resulting in high-quality and reliable sintered products. Its ability to create a controlled vacuum environment ensures the removal of impurities and facilitates the production of components with superior mechanical properties.
