Minimum Order Quantity | 1 Unit |
Melting Material | Copper |
Power Source | Electric |
Type Of Furnace | Fix |
Automation Grade | Automatic |
Max Temperature (degree Celsius) | 500-1000 degree Celsius |
Voltage | 420 V |
Country of Origin | Made in India |
Heat treatment (or heat treating) broadly refers to a group of thermal processes in industrial and metallurgical applications used to intentionally alter the physical and sometimes chemical properties of a material (usually a metal). These changes in physical and chemical properties usually take the form of hardening or softening of a material by heating it in a high-temperature furnace or cooling it to extreme temperatures.
Heat treatment furnaces are essentially heating chambers containing the steel cylinder head as well as the heat. The oven chamber is heated by a heat source. Depending on requirements, the heat supply must be regulated. More heat is required during the heating season in continuous mesh belt furnaces, but once the stove has reached the required temperature, almost constant heat is required and must be maintained at that temperature.
Heat must be supplied to the entire suitably designed stove so that the temperature is constant throughout or in places where the load is stored, otherwise, some parts may heat up or overheat. Doors or openings are kept as small as possible to reduce heat loss. Temperature and low-temperature ovens may require provisions for forced air or atmosphere circulation in continuous mesh belt furnaces Case-hardened parts can be hardened in the furnace itself.
Heat treatment furnaces play a very important role in providing repeatable useful properties to steel components. Furnace design is determined by the material to be treated and the specific treatment that needs to be performed at the specific temperature. If parts need to be heat treated at different temperatures multiple furnaces may be required as a furnace that may be suitable for use at 1300°C may not be suitable for use at 300°C even though this last temperature is within its is maximum. Temperature range.
This is because heat transfer below 700°C and especially 300°C is mainly by conduction and convection. Radiation plays a relatively minor role. Therefore, the box oven is not suitable. Convection ovens are required. Therefore, tempering furnaces cannot be used for tempering. Modern oven designs are so advanced that there is a specific oven for every temperature range. There is no furnace that performs all heat treatments efficiently.
Minimum Order Quantity | 1 Unit |
Melting Material | Iron |
Material Loading Capacity (T) | 50 Ton |
Power Source | Diesel |
Type Of Furnace | Fix |
Voltage | 420V |
Melting Time | 4 Hours |
Country of Origin | Made in India |
Max. Working Temperature | 1200 Degree |
MG FURNACES make Billet-heating-furnace are designed for solution heat treatment (quenching) and precipitation hardening by artificial aging to obtain final mechanical properties of manufactured extrusions, plates, sheets, forgings and castings.
The product portfolio at a glance:
Minimum Order Quantity | 1 Unit |
Material Loading Capacity | more than 1000 Kg |
Max Operating Temperature | 1000-1500 degree Celsius |
Melting Material | No melting |
Power Source | Electric |
Type Of Furnace | Fix |
Rated Power (KW) | 20-200 KW |
Input Voltage (V) | 380-420 V |
Furnace Voltage (V) | 380-420 V |
Automation Grade | Automatic |
Furnace Weight (Kg) | As Per customer demand. |
Country of Origin | Made in India |
Minimum Order Quantity | 1 Unit |
Material Loading Capacity (T) | 3 Ton To 50 Ton |
Power Source | Electric |
Type Of Furnace | Fix |
Voltage | 380V |
Melting Time | 6 Hours |
Max Temperature (degree Celsius) | 500-1000 degree Celsius |
Minimum Order Quantity | 1 Unit |
Melting Material | Iron |
Power Source | Electric |
Type Of Furnace | Fix |
Max Temperature | 1000-1500 degree Celsius |
Material Loading Capacity | 10000 Kg, 3000-5000 kg |
Brand | M. G. Furnaces |
Country of Origin | Made in India |
Applications | HARDENING, TEMPERING, ANNEALING, STRESS RELEIVEING & NORMALIZING |