1. … can withstand relatively severe thermic shock, and is superior to type 309 L. … 1.4823, 1.4826, 1.4828, 1.4832, 1.4840, 1.4841, 1.4846, …
  2. … can withstand relatively severe thermic shock, and is superior to type 309 L. … ISO 15608: 8.1  Austenit ≤ 19 % Cr , TÜV 1000: Gr. 21-30, …
  3. … can be used on high amps and must have an angle of about 15 degrees (almost flat) to give the best results. The working speed when making …
  4. … He offers almost full hardness in the first layer and can be applied without any …
  5. … The alloy is not sensitive to weld cracking and produces bright, almost smut-free welds. Not recommended for anodizing. Non-heat …
  6. … can withstand relatively severe thermic shock, and is superior to type 309L. … ISO 15608: 8.1  Austenit ≤ 19 % Cr , TÜV 1000: Gr. 21-30, …
  7. … ESW process has very low dilution so in the first layer you almost reach the chemical composition. Flux FL 860 ESH can be used. … …
  8. … can withstand relatively severe thermic shock, and is superior to type 309 L. … ISO 15608: 8.1  Austenit ≤ 19 % Cr , TÜV 1000: Gr. 21-30, …
  9. … can withstand relatively severe thermic shock, and is superior to type 309 L. … 1.4823, 1.4826, 1.4828, 1.4832, 1.4840, 1.4841, 1.4846, …
  10. … be applied on austenitic manganese steels, 300 HB is usually already almost obtained in the first layer. The weld deposit is machinable with …