Lincoln W100287666 CROMO E225 Welding Rod SMAW, 3.2x350 mm, 12 kg box
CROMO E225 is a basic coated 2,25%Cr-1%Mo electrode suitable for welding creep resistant steels like SA387 Gr22Cl1 and Cl2, A182F22, A336 F22, 10CrMo9-10 and similar. Core wire alloyed electrode. The weld metal chemistry is very low in tramp/impurity elements allowing to respect the Xbar (<12ppm) and J-factor (<120ppm) and showing excellent resistance to the step cooling test, no sensitive to the in-service embrittlement. Crack resistant and excellent tensile strength at high temperature and good creep rupture strength. Very low diffusible hydrogen (HD<4ml/100g).
Features
- B3 alloyed steel: 2.25%Cr-1%Mo basic coated stick electrode producing a low hydrogen weld metal with operating temperatures up to 600°C
- Designed for welding creep resistant and high pressure hydrogen resistant steels used in the fabrication of pressure vessels, boilers and pipe
- Weld metal features high toughness properties and is largely insensitive to in-service embrittlement proven by stimulated heat treatment step cooling
Lincoln W100287666 CROMO E225 Welding Rod SMAW, 3.2x350 mm, 12 kg box
CROMO E225 is a basic coated 2,25%Cr-1%Mo electrode suitable for welding creep resistant steels like SA387 Gr22Cl1 and Cl2, A182F22, A336 F22, 10CrMo9-10 and similar. Core wire alloyed electrode. The weld metal chemistry is very low in tramp/impurity elements allowing to respect the Xbar (<12ppm) and J-factor (<120ppm) and showing excellent resistance to the step cooling test, no sensitive to the in-service embrittlement. Crack resistant and excellent tensile strength at high temperature and good creep rupture strength. Very low diffusible hydrogen (HD<4ml/100g).
Features
- B3 alloyed steel: 2.25%Cr-1%Mo basic coated stick electrode producing a low hydrogen weld metal with operating temperatures up to 600°C
- Designed for welding creep resistant and high pressure hydrogen resistant steels used in the fabrication of pressure vessels, boilers and pipe
- Weld metal features high toughness properties and is largely insensitive to in-service embrittlement proven by stimulated heat treatment step cooling