Max Temp: Max 1600℃
Heater Capacity: 36L
Program temperature control: Intelligent logic PID algorithm
Chamber size (D×W×H mm): 400×300×300
Heating element: MoSi2
Operating temperature: 1500℃
Temp Precision: ±1℃
Laboratory furnace cycle mode of operation of energy-efficient furnace, heating up fast, make no use of small, temperature uniformity is good, for laboratory, industrial and mining for metallic elemental analysis and general metal heat treatment.
1. Muffle Furnace
2. Tube Furnace
3. Dental Furnace
4. Vacuum Furnace
5. Crucible Furnace
6. Atmosphere Furnace
7. CVD Furnace
8. RTP Furnace
9. Drying Oven
1, the inner lining of silicon carbide, full fiber insulation.
2, furnace material made of ceramic fiber, heat capacity is small, fast heating (30 minutes to reach the set temperature), short cycle, energy savings (more than 80% energy saving effect is plain old electric furnace).
3, using intelligent digital programmable temperature table (below), may be prepared multi-liter, security, cooling curve, automatic heating, insulation, cooling and overtemperature protection, the program runs automatically at the end stop, no duty.
4, high temperature resistance wire heating element Shallow manner using an oven to form a wall heating plate, easy to use and safe.
5, you can configure programmable temperature control, the other RS485 interface can be configured to realize the electric remote control and data acquisition. Or configuration chart recorder adjust heat treatment process for tracking record.
Sintering annealing, tempering, quenching and other heat treatment process is generally box-type furnace is mainly used for metal, and ceramic materials (such as zirconia, etc.); tube furnaces are used for some of the need for a vacuum, we need to access some of the gas involved in the reaction or sintering environment protection in the industry applied fluorescent material, CVD, PECVD, graphene and other fields
Please contact our sales for detailed product technical drawing.
If any special requirement, we can discuss further.