1. … in chloride-bearing solutions (a form of degradation to which the austenitic stainless steels are prone). It is able to withstand a wide …
  2. … and scale resistance than the standard L-type. The microstructure is austenite with approx. 5-10% ferrite. … ISO 15608: 8.1  Austenit ≤ 19 % Cr 9 % Ni, TÜV 1000: Gr. 21,  1.4301,  1.4308, 1.6900, …
  3. … is an alloy especially developed for high-temperature applications. Because of the high high chromium and aluminum content it has excelent …
  4. … responsible for its creep strength are kept above the minimum considered necessary to ensure satisfactory performance. In this case, …
  5. … industries. It is used for combustion cans, transition ducts, flame holders, thermocouple sheaths, and other important gas turbine components. …
  6. … resists corrosion by alkaline solutions, including sodium hydroxide (caustic soda) and potassium hydroxide. Oxidation Resistance: Alloy 600 …
  7. … offers a easily machinable weld deposit with high ductility and no undercut. … Welding ductile, grey and malleable cast irons. Ni 99 can …
  8. … layer in case off multi-layer welding. The weld metal will show no undercut !Preheating is normally done to slow down the cooling speed, in …
  9. … fluidity (wetting action), making the alloy the preferred choice of welders. The alloy is not sensitive to weld cracking and produces bright, …
  10. … improved high temperature creep properties. The weld deposit is fully austenitic and corrosion resistant. … ISO 15608: 8.1  Austenit ≤ 19 % Cr , TÜV 1000: Gr. 21-30 1.4335 , 1.4435  1.4465 , …