High-temperature sintering furnaces, especially microwave high-temperature sintering furnaces, have broad applications across multiple fields:
- Ceramic Materials
- Sinter various white ceramics, thin porcelain, bone ash porcelain, and others. Compared with traditional gas or fuel-fired furnaces, microwave sintering can reduce energy consumption by over 50% and improve product yield.
- Red ceramics and fine porcelain can achieve higher product quality, shorter firing times, and lower energy consumption.
- Sinter oxides, nitrides, carbides, and composite ceramics efficiently, reducing deformation, lowering sintering temperature, and cutting production costs.
- Powder Metallurgy Materials
- Hard alloys: Microwave sintering enables large-scale production of hard alloy tools with improved performance due to finer carbide grains.
- Various tungsten alloys and iron-based or copper-based powder metallurgy components can also be efficiently sintered.
- Magnetic Materials
- Sinter nickel-zinc soft ferrite materials with better high-frequency characteristics compared to conventional sintering.
- Rotate ferrite materials during microwave sintering to reduce loss and improve performance without changing the formula.
- Microwave Synthesis of Nitride Alloys
- Large-scale production of vanadium nitride, iron nitrides, chromium nitrides, and other special nitride alloys.
- Reduces unit energy consumption and improves product performance.
- Microwave Synthesis of Various Ceramic Powders
- High-performance oxide, nitride, carbide, and boride ceramic powders such as lithium cobaltate, lithium iron phosphate, aluminum nitride, aluminum oxynitride, titanium nitride, vanadium nitride, silicon nitride, silicon carbide, titanium carbide, vanadium carbide, niobium carbide, zirconium carbide, boronized titanium, and more.
- Synthesis of multi-phase functional ceramic powders and rare-earth materials, including long afterglow rare-earth luminescent materials, via microwave or microwave plasma ultrasonically assisted techniques.
- Microwave Synthesis of Ceramic Colorants and Glazes
- Synthesize various inorganic non-metallic ceramic colorants and glazes:
- Zircon-based colors: zircon blue, zircon materials, zircon red iron-based.
- Spinel colorants: zinc-chromium-iron-based, zinc-lead-chromium-iron-based, cobalt-chromium-iron-based.
- Tin-based colors: chromium-tin red, tin-vanadium materials.
- Synthesize various inorganic non-metallic ceramic colorants and glazes: