1. … up to much higher temperatures. Preheating is recommended at 150 - 350° C. depending on the thickness of the base metal. Similar …
  2. … alloy for use at operating temperatures up to (2100 °F) 1150 °C. It contains rare-earth additions for increased oxidation …
  3. … high temperature brines, but at lower cost than Grade 7. The improved performance is believed to be the result of Ni++ and Mo++ ions that …
  4. … aluminium grades. Heavy parts and thicker plates should be preheated (150°C), prior to welding. At the same time, it keeps the benefits of …
  5. … are kept above the minimum considered necessary to ensure satisfactory performance. In this case, weldments will be weakest in the softened …
  6. … are kept above the minimum considered necessary to ensure satisfactory performance. In this case, weldments will be weakest in the softened …
  7. … alloy with additions of Nb and V to improve high temperature creep performance. Interpass temperature: max. 300°C … alloy 24, 2.5%Cr1%Mo …
  8. … prior to welding. Heavy parts and thicker plates should be preheated (150°C), prior to welding The alloy shows good corrosion-resistance and …
  9. … be kept below 15 kJ/cm and interpass temperature between 100 and 150ºC. … S690, X80, X90, X100, S690QL1, Weldox 700, Dilimax, Naxtra 70, …
  10. … metal provides optimum strength and oxidation resistance above 815 °C (1500°F) up to 1149 °C (2100°F), especially when welding on base metals …