1. … to chloride stress corrosion cracking. This alloy is often chosen to solve SCC problems, which may occur with 316L stainless … Alloy 20, …
  2. … higher deposition rates and improved wetting properties compared to solid wires with excellent X ray soundness. Improved hot cracking …
  3. … Surfacing and joining of Copper and CuSn-Alloys. Widely used in oven soldering. High quality alloyed copper wire. Sound, pore free deposits … Surfacing and joining of Copper and CuSn-alloys. Widely used in oven soldering. Mat.n: 2.1010, 2.1016, 2.1020, 2.1030, 2.1050, 2.1052, …
  4. … with excellent weldability due to improved wetting compare to solid wire. Aggresive media, against pitting and crevice corrosion, …
  5. … resistance to stress corrosion cracking in chloride-bearing solutions (a form of degradation to which the austenitic stainless …
  6. … Absolutely crack resistant weld metal conditioned by the high-basic slag …
  7. … of Copper and CuSn-Alloys. Widely used and recommended for oven soldering. High quality alloyed copper wire Sound, pore free deposits … of Copper and CuSn-alloys. Widely used and recommended for oven soldering. Mat.n: 2.1016, 2.1020, 2.1030, 2.1050, 2.1052, 2.1056, …
  8. … He is a copper coated, Ni-alloyed (2,4% Ni), solid wire for low temperature steels in applications such as vessels, …
  9. … CEWELD® L-Ag49niMn is a very good flowing, low-melting silver hard solder for operating temperatures from -200 °C to Max. 200 °C (without …
  10. … the NiCrMo-3 requirements.Better bead aspect and shape compare to solid wires with better arc stability and improved wetting properties …