Fuel Cell Stack Sintering Furnace,Solid Oxide Fuel Cell,SOFC,SOFC Stack Sintering Station,Electrochemical stack sealing furnace
Technical Specifications
- Maximum Temperature: 1100°C
- Long-term Operating Temperature: RT ~ 1000°C
- Heating Rate: Recommended 3-5°C/min
- Temperature Control Zones: 2 independent zones
- Thermocouple Type: K-type thermocouple
- Temperature Control Accuracy: ±1°C
- Heating Elements: Kanthal resistance wire (Sweden) with embedded resistance wire heating modules
- Chamber Dimensions: 400 × 400 × 500 mm (W × D × H)
High-Precision Vacuum Sintering & Brazing: The Future of Hydrogen Energy and Advanced Metallurgy
The Core of Advanced Manufacturing
In the rapidly evolving landscape of Aerospace, Automotive, and Renewable Energy, the demand for superior material bonding and thermal processing has never been higher. Whether it’s the hermetic sealing of a Fuel Cell Stack or the high-strength joining of Titanium alloys, the choice of furnace technology is the deciding factor in product reliability.
1. Vacuum Brazing: Achieving Oxidation-Free Excellence
Our latest Vacuum Brazing Furnaces are engineered for complex assemblies like heat exchangers and medical implants.
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Ultimate Vacuum Performance: Reaching 6.0×10⁻⁴ Pa, ensuring a fluxless, bright, and contaminant-free surface.
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Advanced Materials: Specialized in joining Cu, Ni, Ti, and Superalloys with zero oxidation.
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Mo-La Alloy Technology: Utilizing Molybdenum-Lanthanum (Mo-La) alloy heating elements, our furnaces offer superior creep resistance and extended service life up to 1600°C.
2. Fuel Cell Stack Sintering: Powering the Hydrogen Economy
As the world pivots towards Green Hydrogen, SOFC (Solid Oxide Fuel Cell) and SOEC (Solid Oxide Electrolyzer Cell) production requires extreme precision. Our Stack Sintering Stations provide:
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Active Force Control: Precision pressure application during sintering ensures uniform densification and minimal interfacial resistance.
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Atmosphere Integrity: Reliable performance in Reducing Atmospheres (Ar/H₂) to protect metallic interconnects.
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Thermal Uniformity: A strict ±3°C to ±5°C temperature window to prevent thermal stress and micro-cracking.
3. Engineering for Efficiency
Every furnace we build, from Horizontal Side-Loading units to custom Multi-Zone Sintering Lines, is designed with two goals: Energy Efficiency and Process Repeatability. With PID programmable controllers and SCR power regulation, we provide ±1°C control precision for mission-critical applications.
Driving Industrial Innovation
From Semiconductor components to High-speed tool steel tempering, our thermal processing solutions are the backbone of modern industrial innovation. We don't just supply equipment; we provide the technical expertise to optimize your production cycle
