1. … where Molybdenum % is reduced to form a hybrid alloy between 308H and 316H, operates in temperatures up to 800 °C. CEWELD® 16.8.2 …
  2. … where Molybdenum % is reduced to form a hybrid alloy between 308H and 316H, operates in temperatures up to 800 °C. CEWELD® 16.8.2 …
  3. … construction with good cold tough properties down to -40 degrees Celsius. Basicity according to Boniszewski:Grain size according DIN EN …
  4. … to offer creep resistance for working temperatures up to 550º Celsius. … Typ 1Cr0,5Mo, ISO 15608: ~5,1 1.7335, 1.7262, 1.7728, 1.7218, …
  5. … flux for SAW welding stainless steels and Nickel based alloys: AISI 308L, 347, 316L, 309L and 309LN. Basicity: About 1,9 (according to … types such as: stainless steel, and nickel based wires ranging from :308L, 316L, 347, 317L, Duplex 2209, Super Duplex 2507 and 2594, …
  6. … where Molybdenum % is reduced to form a hybrid alloy between 308H and 316H, operates in temperatures up to 800 °C. CEWELD® 16.8.2-17 …
  7. … to offer creep resistance for working temperatures up to 550º Celsius. The wire has low levels of tramp elements (eg. Sn, As, Sb and P) …
  8. … steels that have to fullfill impact requirements down to -60 degrees Celsius and parts that have to be soft annealed above 900 degrees Celsius. Suitable for use with FL 155 agglomerated flux or with FL CS155 …
  9. … Usually combined with AlSi12 or AlSi5 filler metal. … Brazing for Aluminium and Aluminium Alloys with a working range from 350 to 550 °C. Usually combined with AlSi12 or AlSi5 filler metal. … Alu-Flux … 18496: FL20 …
  10. … sections should be preheated (150°C) prior to welding. … AlMgSi 0, AlSiMg (A), AlSi 1 MgMn, AlMg1SiCu, 3.3206, 3.3210, 3.2315, 3.3211, EN AW 6060, EN AW 6005A, EN AW 6082, EN AW 6061, EN AC 45000, … AlSi 5 Tig … A 5.10: ER4043 … 18273: S Al 4043A (AlSi5(A)) …