1. … Tig offers outstanding abrasion resistance combined with heavy shocks, despite the high hardness several layers can be applied without any …
  2. … The hardfacing contains sufficient special carbides formed with boron and therefore has excellent resistance to …
  3. … vacuum pack to avoid costly and time consuming redrying of the electrodes. … Reh ≤ 500 MPa ISO 15608: 1.3, ~3.1, ~2.2, 2.1, 1.0580 to 1.0070, …
  4. … offers outstanding abrasion resistance combined with heavy shocks, despite the high hardness several layers can be applied without any …
  5. … % Ni: 58 Cr: 20-23 Mo: 8-10 Fe: 5 Nb: 3.15-4.15 Small amounts of other elements like titanium, aluminum, manganese, silicon, carbon, … encountered in chloride-containing environments. Alloy 625 finds widespread applications in industries such as chemical processing, …
  6. … Mo: 8.0-10.0 W: 0.2-1.0 Al: 0.5-2.5 Ti: 0.2-0.7 Small amounts of other elements like sulfur, carbon, manganese, silicon, and boron   Corrosion … and nitrogen-rich environments. Sulfidation Resistance: Alloy X provides good resistance to sulfidation, making it suitable for applications …
  7. … the EN code; example EN 14341: G 42 3 M G3Si = SG2. The EN 15614-1 describes the following:; “8.4.4  Filler metal, designation: Filler metals may be replaced as long as they have similar …
  8. …  base  materials.  The  weld deposit from Typ 15CrMoV6 provides  high  strength. Actual mechanical properties will be dependent on …
  9. … CEWELD® 316H Tig is designed for welding 316/316H austenitic stainless steels operating at … filler metal can also be used for welding 321/321H and 347/347H grades in high temperature structural service. This is particularly …
  10. … DUR 1 (45/15). It contains a higher fraction of hard, brittle carbides than Powder HVOF DUR 6 (45/15), and has increased resistance to … impact and cavitation resistance. The higher tungsten content provides better hightemperature properties and it can be used at …