Brazing is a joining process traditionally applied to metals in which molten filler metal flows Into the joint. the melting point of the filler metal is above 450'C, But Always below the melting temperature of the parts to be joined, which distinguishes the process from welding where high temperatures are used to melt the base metals together. The filler metal, while heated slightly above the melting point, is protected by a suitable atmosphere which is often a flux.
The molten filler metal cools to join the workpieces together providing a strong join between similar or dissimilar metals. The Atmospheres in which the brazing process can be undertaken include Air, Combusted Fuel Gas, Ammonia, Nitrogen, Hydrogen, Noble Gases, inorganic Vapors, and Vacuum, using a variety of heating sources such as touch, furnace, and induction coil.
| Specifications |
| Power Supplier |
Three Phase |
| Voltage |
440 volt AC |
| Absorbed Power |
10 kw to 30 kw |
| Cooling Water Temperature |
45 Degree Max |
| Water Pressure |
4 Bar |
| Maximum Water Flow |
6 LPM |
| † Brimful Capacity †† Under Standard Condition |
| Dimensions (mm) L x B x H |
| Furnace Unit |
810.00 x 610.00 x 1422.00 |
| Benefits |
| • Superior Brazing Quality due to consistent Heat Input. |
| • No need for qualified or export operator. |
| • Ideal for serial production. |
| • Maximum safety of induction brazing Due to no contact between inductor and work piece. |
| • Reduction of porosity and weak brazing joints. |
| • Reduction of cold brazing joints. |
