1. … This alloy can withstand relatively severe thermic shock, and is superior to type 309L. … ISO 15608: 8.1  Austenit ≤ 19 % Cr , TÜV 1000: …
  2. … This alloy can withstand relatively severe thermic shock, and is superior to type 309L … ISO 15608: 8.1  Austenit ≤ 19 % Cr , TÜV 1000: …
  3. … in oxidizing and neutral environments, whereas the nitrogen allows superior strength at high temperatures. Therefore, this filler wire …
  4. … critical because of its low operating temperature.  Flux/Paste: CEWELD Super-Flux … Copper to Copper (without flux). Brass, Copper and …
  5. … -200 °C to Max. 200 °C (without loss of strength) Flux/Paste: CEWELD Super-Flux … Brazing Tungsten tool tips, widia, and Molybdenum Alloys …
  6. … capillary then the standard silver brazing alloys. Flux/Paste: CEWELD Super-Flux … Brazing: Steels, Copper, Copper alloys, Stainless steel, …
  7. … This alloy can withstand relatively severe thermic shock, and is superior to type 309 L. … ISO 15608: 8.1  Austenit ≤ 19 % Cr , TÜV …
  8. … or 3 and is sometimes specified for pressure vessels or piping for its superior strength alone. … Titanium grade 12, Grade 7, Grade 2 and …
  9. … -200 °C to Max. 200 °C (without loss of strength) Flux/Paste: CEWELD Super-Flux … Brazing tungsten tool tips, diamont, widia, and …
  10. … penetration. Due to the wood powder based coating the weld puddle is super fast freezing and therefore amazing results can be achieved on …