Low alloyed wire electrode for GMA (MIG/MAG) welding of steels, which are subjected to operating temperatures down to -60°C. Weld metal has high strength and high toughness. Suitable to use in petrochemical, chemical, oil/gas industries and off-shore platforms, especially welding of pipes, boilers, tanks and valves, pumps which are made of cast or forged steels.
Low-alloyed GMA (MIG/MAG) welding wire designed for welding of weathering steels (like COR-TEN) with high mechanical properties. Due to nickel and copper alloys, it provides higher corrosion resistance then carbon steels. Suitable for welding in steel construction manufacturing such as bridge, stadium and steel construction.
Low alloyed wire electrode for GMA (MIG/MAG) welding of fine grained and high strength steels with yield strength of up to 690 N/mm2. Weld metal exhibits good toughness properties down to -60°C. Especially used in high strength pipe-lines, earthmoving and mining equipments, trucks, mobile cranes, concrete pumps cranes and lift productions.
Low alloyed wire electrode for GMA (MIG/MAG) welding of fine grained and high strength steels with yield strength of up to 690 N/mm2. Weld metal exhibits good toughness properties down to -40°C. Especially used in high strength pipe-lines, earthmoving and mining equipments, trucks, mobile cranes, concrete pumps cranes and lift productions.
Low alloyed wire electrode for GMA (MIG/MAG) welding of fine grained and high strength steels with yield strength of up to 960 N/mm2. Weld metal exhibits good toughness properties down to -60°C. Especially used in earthmoving, mining equipments, trucks, mobile cranes, concrete pumps crane,lift and oilfield equipments productions.
Low alloyed wire electrode for GMA (MIG/MAG) welding of creep resistant boiler and pipe steels subjected to operating temperatures up to 530°C. Also suitable for joining C-Mn steels, which will be postweld heat treated. CO2 or mixed shielding gases can be used depending on the thickness of the base metal. A thin and homogeneous copper coating increases electrical conductivity and protects the wire from rusting.
Low alloyed wire electrode for GMA (MIG/MAG) welding of creep resistant boiler and pipe steels subjected to operating temperatures up to 530°C. Contains high level of deoxidizing (Mn and Si) elements to control porosity during welding. Welds are of X-ray quality. Also suitable for joining C-Mn steels to be postweld heat treated. Observe directions as to pre and post weld heat treatment of base material. CO2 or mixed shielding gases can be used depending on the thickness of the base metal. A thin and homogeneous copper coating increases electrical conductivity and protects the wire from rusting.
Low-alloy wire electrode for GMA (MIG/MAG) welding of Cr-Mo alloyed creep resistant boiler and pipe steels subjected to operating temperatures up to 570°C. Also suitable for joining C-Mn steels to be postweld heat treated. Observe directions as to pre and post weld heat treatment of base material. CO2 or mixed shielding gases can be used depending on the thickness of the base metal. A thin and homogeneous copper coating increases electrical conductivity and protects the wire from rusting.
Low-alloy wire electrode for GMA (MIG/MAG) welding of Cr-Mo alloyed creep resistant boiler and pipe steels subjected to operating temperatures up to 570°C. Contains high level of deoxidizing (Mn and Si) elements to control porosity during welding. Welds are of X-ray quality. Also suitable for joining C-Mn steels to be postweld heat treated. Observe directions as to pre and post weld heat treatment of base material. CO2 or mixed shielding gases can be used depending on the thickness of the base metal. A thin and homogeneous copper coating increases electrical conductivity and protects the wire from rusting.
Low-alloy wire electrode for GMA (MIG/MAG) welding of Cr-Mo alloyed creep resistant boiler and pipe steels subjected to operating temperatures up to 600°C. Also suitable for joining C-Mn steels to be postweld heat treated. Observe directions as to pre and post weld heat treatment of base material. CO2 or mixed shielding gases can be used depending on the thickness of the base metal. A thin and homogeneous copper coating increases electrical conductivity and protects the wire from rusting.