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Vacuum purifying furnace
The vacuum purification furnace can be used for continuous high temperature graphitization purification of graphite powder, and the combination of high temperature method and chemical method can be realized. Suitable for new energy vehicles, semiconductors, new materials and other fields.
USES:
It is suitable for vacuum atmosphere treatment of battery anode materials, electronic ceramics, glass, crystal, powder metallurgy, nanomaterials, metal parts, electronic components, graphene, new materials and powder materials, and sintering of materials in inert atmosphere environment.
Features:
It can be used for continuous high temperature graphitization purification of graphite powder, and the combination of high temperature method and chemical method can be realized.
It can realize continuous feeding and discharging at high temperature, reduce energy consumption and shorten production cycle;
Using resistance or induction heating, the temperature can reach more than 2850℃;
The combination of high temperature method and chemical method can meet the requirements of high purity treatment.
The use of efficient filtration system, can effectively capture the dust, corrosive gas produced in the process of purification;
It can realize continuous feeding and discharging at high temperature, reduce energy consumption and shorten production cycle.
Main technical parameters
Model | GJC-DCL-4 | GJC-DCL-10 | GJC-DCL-15 |
Out put(kg/h) | 50-90 | 100-140 | 150-200 |
Maximum Temperature (℃) | 2850 | ||
Heating method | induction heating | ||
Control method | · Manual or automatic operation · | ||
Loading Capacity(L) | 10-40 | 40-120 | 120-250 |
· Temperature difference in constant temperature Zone(℃) | ±3.5 | ±5 | ±8 |
Furnace working atmosphere | · Vacuum or inert gas protection (slightly positive pressure) · | ||
Vacuum purifying furnace
The vacuum purification furnace can be used for continuous high temperature graphitization purification of graphite powder, and the combination of high temperature method and chemical method can be realized. Suitable for new energy vehicles, semiconductors, new materials and other fields.
USES:
It is suitable for vacuum atmosphere treatment of battery anode materials, electronic ceramics, glass, crystal, powder metallurgy, nanomaterials, metal parts, electronic components, graphene, new materials and powder materials, and sintering of materials in inert atmosphere environment.
Features:
It can be used for continuous high temperature graphitization purification of graphite powder, and the combination of high temperature method and chemical method can be realized.
It can realize continuous feeding and discharging at high temperature, reduce energy consumption and shorten production cycle;
Using resistance or induction heating, the temperature can reach more than 2850℃;
The combination of high temperature method and chemical method can meet the requirements of high purity treatment.
The use of efficient filtration system, can effectively capture the dust, corrosive gas produced in the process of purification;
It can realize continuous feeding and discharging at high temperature, reduce energy consumption and shorten production cycle.
Main technical parameters
Model | GJC-DCL-4 | GJC-DCL-10 | GJC-DCL-15 |
Out put(kg/h) | 50-90 | 100-140 | 150-200 |
Maximum Temperature (℃) | 2850 | ||
Heating method | induction heating | ||
Control method | · Manual or automatic operation · | ||
Loading Capacity(L) | 10-40 | 40-120 | 120-250 |
· Temperature difference in constant temperature Zone(℃) | ±3.5 | ±5 | ±8 |
Furnace working atmosphere | · Vacuum or inert gas protection (slightly positive pressure) · | ||
