1. … high Cr content. The alloy is fully austenitic and is therefore sensitive to hot cracking. The temperature limits for use under intermittent … a temperature of 1000°C be exceeded. This alloy can withstand relatively severe thermic shock, and is superior to type 309L. … ISO 15608: …
  2. … Flux cored wire with slag support for high productivity welding in all positions. Excellent for use on ceramic backing … no spatters. Better wetting and welding properties with more productivity compared to solid wires … 1.4301, 1.4306, 1.4401, 1.4404, …
  3. … flat weld beads with deep penetration and above all not sensitive for porosity and or inclusions. Filled welds exceeding an A-height … of 4,0 mm are easy to achieve in one single layer for high productivity. and can be used in all positions, especially suitable for …
  4. … Higher productivity, higher deposition rates and improved wetting properties compared to solid wires with comparable analysis. Attractive bead appearance without slag residues. Suitable for cladding and …
  5. … high Cr content. The alloy is fully austenitic and is therefore sensitive to hot cracking. The temperature limits for use under intermittent … a temperature of 1000°C be exceeded. This alloy can withstand relatively severe thermic shock, and is superior to type 309 L. … ISO …
  6. … basic slag quality guarantees optimum metallurgical quality and attractive welder appeal. The weld deposit meets the NiCrFe-3 … with less spatters. Excellent results are also achieved without protective gas. … E NiCr3 / Ni6082 / NiCr15Fe6Mn  1.4816, 1.4864, 1.4876, …
  7. … with rapidly solidifying slag (P in Standard) support for high productivity welding in all positions. Excellent for use on ceramic backing … no spatters. Better wetting and welding properties with more productivity compared to solid wires. … ISO 15608: 8.1  Austenitic ≤ 19 % Cr …
  8. … high Cr content. The alloy is fully austenitic and is therefore sensitive to hot cracking. The temperature limits for use under intermittent … alloy is heat resistant up to 1200 °C. This alloy can withstand relatively severe thermic shock, and is superior to type 309 L. … 1.4823, …
  9. … prior to welding. At the same time, it keeps the benefits of being relatively lightly alloyed (compared to other series), such as high electrical conductivity, thermal conductivity, corrosion resistance, and workability. It can be strengthened …
  10. … prior to welding. At the same time, it keeps the benefits of being relatively lightly alloyed (compared to other series), such as high electrical conductivity, thermal conductivity, corrosion resistance, and workability. It can be strengthened …