1. … layout of the room can be adapted to your needs, for example, as a theater, banquet or U-shape. The room is easily accessible and has ample …
  2. … X-ray soundness. When welding, care should be taken to minimize the heat input, because materials of this composition have a tendency to …
  3. … for the number of layers that can be applied in case of rebuilding but heat input should be kept low (as for Mn steel). The weld deposit is …
  4. … cleaned prior to welding. Heavy parts and thicker plates should be preheated (150°C), prior to welding. … Al99,0 Al.99,5 Al.99,7 E-Al., 99,5, …
  5. … joining and cladding 17% Chromium alloys and cladding components where heat and corrosion resistance simmilar to AISI 304 is required.The weld …
  6. … low hydrogen potential which makes it suitable for overlay welding of heat resistant steel like A387 types. … Cr, CrNi, CrNiMo steels, A387 …
  7. … Austenitic filler metal for stabilized and non-stabilized CrNi steels. Heat resistant up to 350°C. Excelent toughness properties down to …
  8. … Designed for welding heat resistant steels to sustain working temperatures upto 650 ˚C … For …
  9. … and corrosion. Due to the high chromium content this alloy offers high heat resistance as well. The spray deposit is only machinable by … wire for metal spray on a C-Cr-B- carbide basis for extreme hard and heat resistant deposits on parts subject to severe mineral abrasion. …
  10. … most commercial copper grades. Thicker sections than 5 mm should be preheated up to approximately 500 °C. … Cladding steel, Grey cast iron, …