1. … Higher productivity, higher deposition rates and improved wetting properties compared to solid wires with comparable analysis. Attractive bead appearance without slag residues. Hard facing alloy with …
  2. … Flux cored wire with slag support for high productivity. Excellent for use on ceramic backing strips. The slag is self … no spatters. Better wetting and welding properties with more productivity compared to solid wires. The 0,9 and 1,0 mm can be used for all …
  3. … should not be deposited. A Buffer layer is recommended in case of sensitive base material or old unknown layers. OA 67 NiBo can be welded without using protective gas (open arc) but is also available as Gas shielded version. … …
  4. … 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. This wire …
  5. … Very good welding characteristics and not sensitive for old and rusty base-materials, good mechanical properties and … welding in all positions. To be used on direct current electrode negative (DC-). … ASTM EN A 131 Gr A, B, D A 131 Gr AH32 to DH36 API 5LX - …
  6. … High productivity, high deposition rates and improved wetting properties compared to solid wires with similar analysis. Attractive bead appearance without slag residues. Best to be used with …
  7. … 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 …
  8. … of welding Consumables, Certilas has set up a professional qualitative dealer policy. The CEWELD® product line is primarily sold trough technical welding retailers. We ensure their staff possesses the …
  9. … 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, …
  10. … 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: …