1. Hardfacing alloy for cladding steel mill rollers, thermoshock resistant … for cladding. The corrosion resistant deposit offers a medium hardness and is resistant against metal-metal wear and high surface …
  2. … Copper alloy, silver-alloyed-with a slightly higher percentage of phosphor, suitable … metal. High quality alloyed copper wire. The weld metal is a Copper-Silver alloy. Sound, pore free deposits and high electrical …
  3. … maximum 250ºC. The weld metal is machinable by special carbide tools, hardening is possible. The maximum hardness is dependent on the base metal and is achieved in the first …
  4. … resistance can be kept up to working temperatures of 600 ºC ; the hardness is still 40-45 HRc at these temperatures. For Hardfacing of more than 3 layers it is necessary to buffer with an … like CEWELD® E DUR 350 Kb that delivers a welding deposit of less hardness. Overlays on steel with high tensile strength have to be …
  5. … Phosphorus silver brazing alloy. Self picking on copper. Used for strong brazing of uneven junctions. Good mechanical characteristics at low …
  6. … High C-, Cr-, B-alloyed flux-cored wire electrode which forms extremely hard carbides for extremely hard deposits on parts subject to excessively heavy abrasive wear … gas. Verry good wear resistance due to excellent first layer hardness properties. More than 1 or 2 layers should not be deposited. A …
  7. … L-Ag27 is a Very good flowing, low-melting silver hard solder for operating temperatures from -200 °C to Max. 200 °C (without loss of strength) Flux/Paste: CEWELD Super-Flux … Brazing Tungsten tool tips, widia, and Molybdenum Alloys to steel … …
  8. … Solid welding wire for Hardfacing parts that are subject to high abrasion, the addition of … vanadium and molybdenum offers better cutting properties and higher hardness. Hardness: 570-660 HB … Mixer blades, cutting knives, pumps, loader …
  9. … Nb-, V-, W-alloyed flux-cored wire electrode which forms extremely hard carbides for extremely hard deposits on parts subject to excessively heavy abrasive wear … up to 650ºC. More than 1 or 2 layers should not be deposited. Hardness reduction at 400°C app. 4%, at 650°C app. 10%. A Buffer layer …
  10. … High C-, Cr-, B-alloyed flux-cored wire electrode which forms extremely hard carbides for extremely hard deposits on parts subject to excessively heavy abrasive wear … gas. Extreme good wear resistance due to excelent first layer hardness properties. More than 1 or 2 layers should not be deposited. A …