1. … the weld metal. The preheat and interpass temperature should be 200 – 300ºC. A tempering 730 – 800ºC is possible. … 1.4000, 1.4002, 1.4016, … X2CrTi17, X10CrSi6, X10CrAlSi7, X10CrAlSi13, X10CrAlSi18 UNS S40300, S40500, S40900, S41000, S42900, S43000, S43035, S43036, S43100, S44200  AISI 403, 405, 409, 410, 429, …
  2. … hardness of the fused tungsten carbides (WSC) of approx. 2300 HV imply the high build-up wear resistance. It is a dip-coated …
  3. … and interpass temperature 400-450 °C (austenitic welding) or 250-300 °C (martensitic welding). Root passes should principally be welded …
  4. … tips and by grinding. The hardness of the deposit will degrease 16% at 300°C and about 30% at 600°C. Excellent alloy against thermal shock, …
  5. … of. In case of sensitive base material preheating is recommended at 300-400°C. … 600 HB, T Fe 8 … MA 600 (1.4718) … A 5.21: ERFeCr-A … …
  6. … with reasonable impact properties and temperature resistance up to 300ºC. Due to the combination Cr and Nb carbides the deposit structure …
  7. … of. In case of sensitive base material preheating is recommended at 300-400°C. Old Hardfacing layers should be removed, clean or grind …
  8. … against high temperature liquid acids. Application temperature max. 300ºC. High resistance to hot cracking, good toughness and strength …
  9. … and very good weldability, suitable for operating temperatures up to 300°C. For welding in combination with CEWELD FL 838 and CEWELD FL 880 …
  10. … against high temperature liquid acids. Application temperature max. 300ºC. High resistance to hot cracking, good toughness and strength …