The high temperature muffle furnace are mainly used in laboratory 1200 degree heat treatment, li-ion battery anode materials, ashing,dental porcelain sintering and etc. Compact dimension can allows user put the muffle furnace into glove box or some other chamber space
high temperature muffle furnace Featrues
1100 °C maximum operating temperatures
P518 digital controller, with single ramp to set-point & process timer
Ideal for ashing foods, plastics, coal & other hydrocarbon materials
Wire elements are protected from chemical & mechanical damage by a hard wearing alumina based liner
3 sided heating,make sure chamber heating zone uniform
Reheating of air before it enters the chamber gives excellent uniformity
muffle furnace Technical parameters
Model CY-M1200-1L Chamber model Side Door Display LED Button Controller Limiting temperature 1200℃ Working temperature ≤1100℃ Heating rate Suggestion 0~20℃/min Temperature accuracy ±1℃ Inside chamber size 100*100*100(mm) Heating element Aludirome Thermal couple K Type Temperature control PID automatic control via SCR power control Heating curves 30 steps programmable Chamber material Alumina Fiber Rated power 0.75KW Working voltage AC 220V, 50-60Hz Packing PLY wood box Accessories glove 1pair, crucible tongs 1pc, manual book
Silicon molybdenum rods can be used in furnaces with temperatures ranging from 1600 ° C to 1750 ° C. They are widely used in metallurgy, glass, ceramics, magnetic materials, refractory materials, crystals, electronic components, furnace manufacturing, etc. The ideal heating element.
Under the high temperature oxidation atmosphere, the silicon molybdenum rod forms a quartz protective layer on the surface to prevent the silicon molybdenum rod from continuing to oxidize. When the element temperature is greater than 1700 ° C, the quartz protective layer is melted, the element is continuously used under an oxidizing atmosphere, and the quartz protective layer is regenerated. Silicon molybdenum rods should not be used for a long time in the range of 400-700 ° C, otherwise the components will be powdered due to the strong oxidation of low temperature.