The amount of carbon in an Iron grade or alloy affects largely in its weldability. There can be low carbon steels, medium carbon steels and high carbon steels. Each type of carbon steel has its own procedure for welding. Low carbon steel can easily be welded in room temperature, medium carbon steel requires preheat and post heat treatments and high carbon steels are very prone to weld cracking and hence requires more strict procedures and sometimes even use of filler metals. DDM makes sure that proper welding procedures are followed with each type of carbon steels so that you get the best weld joints without any cracking or failure.
Typical projects include: Welding in fasteners and bolts, high carbon steels are used in railway applications, in construction of building and bridges, carbon steel flanges and parts of automobiles, etc.
The amount of carbon in an Iron grade or alloy affects largely in its weldability. There can be low carbon steels, medium carbon steels and high carbon steels. Each type of carbon steel has its own procedure for welding. Low carbon steel can easily be welded in room temperature, medium carbon steel requires preheat and post heat treatments and high carbon steels are very prone to weld cracking and hence requires more strict procedures and sometimes even use of filler metals. DDM makes sure that proper welding procedures are followed with each type of carbon steels so that you get the best weld joints without any cracking or failure.
Typical projects include: Welding in fasteners and bolts, high carbon steels are used in railway applications, in construction of building and bridges, carbon steel flanges and parts of automobiles, etc.
