1. … aluminium content.•       Sound, pore free deposits with excelent sliding properties and low friction. …  Cu – Mn –Ni – Al bronze   … AA …
  2. … process. Due to the low dilution with the base metal a hardness exceeding 50 HRc can be achieved already in the first layer. Multiple layers … / or submerged arc strip for hardfacing against schock and wear, Rebuilding wornout parts such as screws, chrusher hammers, drive tumblers, chrusher rolls, dredging parts etc.. For ESW welding FL 830 ESHC should be used as welding flux to obtain the results …
  3. … deposits are air hardenable that can normally be heat-treated after welding … 1.4000, 1.4001, 1.4002, 1.4003, 1.4006, 1.4008,  1.4021, …
  4. … alloy excellently suitable for metal to metal wear. Machinable by grinding. … Turbine guide vanes, wire-drawing dies, fan blades, pump …
  5. … a long life for several wear applications. Best to be used with shielding gas M13 (Argon with 1% Oxygen) approx. 15 litres per minute. … Rebuilding of stabilisers and other oilfield tools where maximum protection …
  6. … treatable. Thicker sections should be preheated (150°C) prior to welding. … G-AlSi10Mg, G-AlSi11, G-AlSi12 (Cu), G-AlSi7Mg, G-AlSi6Cu4, …
  7. … a wide variety of chemical process environments. It offers an outstanding resistance to stress corrosion cracking, pitting and crevice …
  8. … against hot cracking due to the high Mo content. During build-up welding, the weld metal already achieves approximately the composition of ASTM 316 in the 1st layer. … ISO 15608: 8.1  Austenit ≤ 19 % Cr , TÜV 1000: Gr. 21-30,  1.4583, …
  9. … alternative for „stelliting“ . Best to be used with FL 8111 welding flux.  … Hot working tools such as: Stamping dies and Continuous …
  10. … is higher than 5Cr-0.5Mo steels requirements. To be used with shielding gas Ar+O2.   … For matching 9%Cr-1%Mo creep resisting martensitic …