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Model: JYRE1-3FT
Product Performance
Effective workspace: Φ220*2100mm
highest temperature: 1400°C
total power: 60KW
Temperature control accuracy: ±1°C
This equipment is carbon nanotube growth equipment, mainly used for carbon nanotube production, with the Single-walled carbon nanotube furnace being a core product in this category. With a silicon carbide rod as its heating element, the carbon nanotube furnace can tolerate maximum temperatures of 1400°C. The single-walled carbon nanotube furnace utilizes a Type S thermocouple for precise temperature control; in fact, to successfully synthesize structurally uniform nanotubes, the entire design of this single-walled carbon nanotube furnace—and the broader carbon nanotube furnace series it belongs to—must revolve around maintaining this narrow process window.
Equipment Model | JYRE1-3FT |
Equipment specifications | 1400℃-Φ220*2100mm |
main power | AC 380V±10%, three-phase five-wire system, 50Hz±1Hz |
total power | 60KW |
Temperature control accuracy | (Constant temperature) ±2°C |
Effective workspace | Φ220*2100mm |
heating element | silicon carbon rod |
highest temperature | 1400°C |
Temperature control accuracy | ±1°C |
temperature control | Type S thermocouple |
Vacuum System: The Single-walled carbon nanotube furnace vacuum system is composed of a pump group and a valve vacuum pipeline, where the pump group uses a mechanical pump with valves selected from domestic and imported brands.
Rapid Vacuum Achievement: The Single-walled carbon nanotube furnace system can achieve the required working vacuum level within a relatively short time (no more than 30 minutes).
Water Cooling System: The water cooling system, a critical component of the Single-walled carbon nanotube furnace, provides temperature-controlled coolant through separate supply and discharge routes to various parts of the furnace body, electrodes, and seals, ensuring the equipment's safety.
Dual-Layer Furnace Shell: This type of carbon nanotube furnace shell is entirely a dual-layer structure, with inner and outer plates welded with S-shaped rib plates in between. This optimized structural design is tailored specifically for the carbon nanotube furnace, as it extends the water route and enhances the water cooling function critical to the equipment’s high-temperature operation.
