1. … and well suited for low-temperatures, ductility down to -50°C. Preheating, interpass temperature and post weld treatment as required …
  2. … appearance and outstanding welding properties on both AC and DC+. Preheating is not required. Outstanding slag release. … Rebuilding worn …
  3. … elevated temperatures. Non-heat treatable. Thicker sections should be preheated (150°C) prior to welding. … G-AlSi10Mg, G-AlSi11, G-AlSi12 …
  4. … hydrogen in 100gr weld metal is exceeded. The most important steps to prevent hydrogen induced cracking are: 1)  Use airtight packing for …
  5. … between 1020°C (1875°F) and 1050°C (1925°F) for one hour, followed by precipitation hardening between 612°C (1135°F)  UTS ~ 1170 MPa and YS ~ 950 MPa … Suitable for precipitation hardening stainless steel used for welding materials of …
  6. … The presence of tin improves the fluidity is useful to increase the …
  7. … grain growth in Weld Metal zones (WM) due to titanium nitride (TiN) precipitation in the still liquid metal in these zones, thus avoiding …
  8. … down hand welding. Excellent against pitting and stress corrosion. The PREN above 35 weldmetal offers outstanding resistance against pitting. …
  9. … resistant deposition which offers high resistance to fatigue due to pressure and impact action in combination with abrasion. The …
  10. … elevated temperatures. Non-heat treatable. Thicker sections should be preheated (150°C) prior to welding. … G-AlSi10Mg, G-AlSi11 G-AlSi12 …