1. … treatable. Thicker sections should be preheated (150°C) prior to welding. … G-AlSi10Mg, G-AlSi11, G-AlSi12 (Cu), G-AlSi7Mg, G-AlSi6Cu4, …
  2. … against hot cracking due to the high Mo content. During build-up welding, the weld metal already achieves approximately the composition of …
  3. … of alloys. Thicker sections should be preheated (150°C) prior to welding. … Aluminium alloys: AlMg4,5Mn, AlMg5, AlMg2Mn0,8, AlZnMg1, …
  4. … Special alloyed copper wire for Mig and Tig welding.       The weld metal is a Cu-Al bronze with high aluminium … free deposits. … Suitable for seawater resistant applications. cladding steel and or copper alloys, cast iron and or bronze. Excellent for …
  5. … Excellent welding properties. High world wide excepted quality with controlled cast …
  6. … (650, 760 and 870°C) for 16,000 hours. Suitable for joining and cladding Nickel alloys, stainless steel, carbon steel and low alloyed …
  7. … or toughness. Grade 5 is used in aircraft components such as landing gear, wing spars, and compressor blades. Its corrosion resistance …
  8. … metal has low levels of tramp elements (eg. Sn, As, Sb and P) providing a low Bruscato Factor.(X …
  9. … should be between 100°C (212 °F) and 150°C (302 °F) . As welding flux FL 155 should be used because of its high basicity and low …
  10. … high speed basic flux for the SAW process. Basicity: about 2,2 (according to Boniszewski) Current: DC or AC, in single or multi-wires Grain size: 2-28 … Unalloyed steels: St 33 – St 52, Ship building: A, E, AH, EH, Boiler steels: HI-HIII, 17Mn4, 19Mn5, Pipe steels: …