Audited Supplier
induction melting furnace
CE
Vertical
Industrial
IF Furnace
Sand Casting
Electric
1700 C
Steel Copper, Aluminum
Melting
Indution Heating
Electrical Heating
50-2000 Kg
Water Cooling
Induction Melting Furnace
Induction Heating Melting Furnace
1 Hour
Different Metal with Different Crucible
Container Package
100kg induction melting furnace
China
8514200090
Product Description
Induction Melting Furnace - Aluminum shell
Induction furnace is an electrical furnace in which the heat is applied by induction heating of metal. Induction furnace capacities range from less than one kilogram to one hundred tons, and are used to melt iron and steel, copper, aluminum, and precious metals.
Application:
Heating Type:
Electrical Induction heating
Features:
Specifications
The above data is about standard furnaces. Furnaces can be customized in different power and capacity according to customer's need.
The advantages of medium-frequency melting Furnace:
1. High efficiency: Medium-frequency melting utilizes electromagnetic induction to heat the metal, achieving rapid and efficient heating. This significantly reduces the melting time and improves productivity.
2. Good metal quality: The electromagnetic stirring effect during medium-frequency melting helps to ensure a more homogeneous temperature distribution and chemical composition within the molten metal, resulting in improved metal quality.
3. Low energy consumption: Compared to traditional melting methods, medium-frequency melting has a higher energy conversion efficiency, leading to lower energy consumption and operating costs.
4. Environmental friendliness: Medium-frequency melting produces less waste heat and emissions, making it a more environmentally friendly melting option.
5. Versatility: This method can be used to melt a wide range of metals and alloys, including ferrous and non-ferrous metals.
6. Compact equipment: Medium-frequency melting furnaces are typically compact and require less floor space, making them suitable for both large-scale and small-scale operations.
In summary, the key advantages of medium-frequency melting lie in its high efficiency, good metal quality, low energy consumption, environmental friendliness, versatility, and compact equipment design.
Induction furnace is an electrical furnace in which the heat is applied by induction heating of metal. Induction furnace capacities range from less than one kilogram to one hundred tons, and are used to melt iron and steel, copper, aluminum, and precious metals.
Application:
- Iron, Steel Melting
- Brass Copper Melting
- Lead Zinc Al Melting
- Gold, Sliver Melting
Heating Type:
Electrical Induction heating
Features:
- Electric fuel, various capacity 0.05T-2T
- Rapid melting speed,40-60 minutes /pot, 24 hours continuously working
- Zero-voltage scan soft start, can start or stop anytime;
- Low energy consumption, cast iron less than 550KW.H/T
- Less burning loss,less slag,save raw material.
- Precise temperature control to ensure the quality and capacity.
- Environmental friend l.No harmful gases and bright light.
- Easy to maintain,safe and stability, long working life.
Specifications
| Model (Furnace capacity) | Input power 50Hz | |||
| Rated Power | Rated Voltage | Rated Current | Transformer | |
| GW-0.05T | 50 KW | 380 | 80 A | 65 KVA |
| GW-0.1T | 100 KW | 380 | 160 A | 120 KVA |
| GW-0.15T | 100 KW | 380 | 256 A | 250 KVA |
| GW-0.2T | 150KW | 380 | 256 A | 250 KVA |
| GW-0.25T | 200KW | 380 | 320 A | 250 KVA |
| GW-0.35T | 250KW | 380 | 400 A | 315 KVA |
| GW-0.5T | 350KW | 380 | 560 A | 400 KVA |
| GW-0.75T | 500KW | 380 | 800 A | 630 KVA |
| GW-1T | 750KW | 380 | 1200 A | 800 KVA |
| GW-1.5T | 1000KW | 380 | 1600 A | 1250 KVA |
| GW-2T | 1400KW | 750 | 1078 A | 1600 KVA |
Furnace capacity is designed based on the density of 7.8g/cm³
Product Advantages:
- Energy saving: The power efficiency is 20% less than ordinary equipment.
- High efficiency: No high-order harmonics, the highest power factor, the power factor can reach more than 95%, no reactive power compensation device and harmonic elimination device. One power supply is accompanied by one furnace for smelting and one furnace for heat preservation and refining. The utilization rate of the transformer is high, which can save half of the transformer capacity usage cost. One for two electric furnaces, two electric furnaces can be cast at the same time, and can also be continuously supplied with molten steel for casting.
- Low failure rate: The lower working voltage effectively guarantees the extraordinary stability of power devices such as thyristors.
- Safety: There are few harmonics and low power grid pollution, which effectively guarantees the safety of electricity use.
- Good starting performance: one for two electric furnaces, power is allocated at will, starting rate is 100%.
The advantages of medium-frequency melting Furnace:
1. High efficiency: Medium-frequency melting utilizes electromagnetic induction to heat the metal, achieving rapid and efficient heating. This significantly reduces the melting time and improves productivity.
2. Good metal quality: The electromagnetic stirring effect during medium-frequency melting helps to ensure a more homogeneous temperature distribution and chemical composition within the molten metal, resulting in improved metal quality.
3. Low energy consumption: Compared to traditional melting methods, medium-frequency melting has a higher energy conversion efficiency, leading to lower energy consumption and operating costs.
4. Environmental friendliness: Medium-frequency melting produces less waste heat and emissions, making it a more environmentally friendly melting option.
5. Versatility: This method can be used to melt a wide range of metals and alloys, including ferrous and non-ferrous metals.
6. Compact equipment: Medium-frequency melting furnaces are typically compact and require less floor space, making them suitable for both large-scale and small-scale operations.
In summary, the key advantages of medium-frequency melting lie in its high efficiency, good metal quality, low energy consumption, environmental friendliness, versatility, and compact equipment design.
