1. … This Type is identical to ER80S-B2, with the exception of the reduced carbon content. This results in lower hardness … of up to 550°C. Typical applications are in power plant construction, pressure pipe, turbine and boiler construction. The alloy is also used …
  2. … Mn, Ni, Cr and Mo alloyed basic electrode for welding low alloyed steels with … and well suited for low-temperatures, ductility down to -50°C. Preheating, interpass temperature and post weld treatment as required … Hydrogen content: < 3 ml / 100 g weld metal. …  < 620 MPa  ISO 15608: 2.2, 3.1 (360 < ReH ≤ 690 MPa ) S500Q-S620Q, S500QL-S620QL, …
  3. CEWELD® E DUR 600 KB is a basic coated electrode with approx. 130% … resistant deposition which offers high resistance to fatigue due to pressure and impact action in combination with abrasion. The … guides, running surfaces of heavily loaded PTO shafts, etc. … E DUR 600 Kb … 14700: E Fe8 …
  4. … is an intermediate strength grade originally developed to provide enhanced crevice-corrosion resistance in high temperature brines, but at lower … properties than Grade 2 or 3 and is sometimes specified for pressure vessels or piping for its superior strength alone. … 3.7105  …
  5. … Mechanical properties listed below reflect utilization of a post-weld … between 1020°C (1875°F) and 1050°C (1925°F) for one hour, followed by precipitation hardening between 612°C (1135°F)  UTS ~ 1170 MPa and YS ~ 950 MPa … Suitable for precipitation hardening stainless steel used for welding materials of …
  6. … Dur 6 Mo is free of Ni, Be. and Cadmium according EN ISO 22674. The alloy offers extreme low friction properties … and excellent wear properties against scalling, abrasion and extreme pressure loads. … Overlay welding on wear parts. 3D printing of parts …
  7. CEWELD® E 4009 Ti can be used for a working temperature of up to 450ºC. The recommended preheat temperature is 200ºC - 300°C unless the base material requires a higher preheat temperature. Use DC+ polarity and min 2 layers are required. A …
  8. Preheating and interpass temperature 400-450 °C (austenitic welding) or 250-300 °C (martensitic welding). Root passes … tests. After welding cooling to 90±10 °C, followed by tempering at 760 °C for three minutes / mm wall thickness at least for 2 hours. …
  9. … Thanks to its excellent weldability and good penetration this alloy is used mainly in … results in improved fluidity (wetting action), making the alloy the preferred choice of welders. The alloy is not sensitive to weld … (A), AlSi 1 MgMn, AlMg1SiCu, 3.3206, 3.3210, 3.2315, 3.3211, EN AW 6060, EN AW 6005A, EN AW 6082, EN AW 6061, EN AC 45000, … 3.2245 … AlSi …
  10. … The weld deposit is ductile and offers excellent corrosion resistance in oxidizing … of mechanical strength and corrosion resistance makes the alloy a preferred choice in many applications to prefent or solve problems. The wire is cleaned in a very special way to …