1. … tools, hardening is possible. The maximum hardness is dependent on the base metal and is often achieved in the first layer. … Rebuilding worn …
  2. … 760 and 870°C) for 16,000 hours. Suitable for joining and cladding Nickel alloys, stainless steel, carbon steel and low alloyed steels. UNS: N06002 … Alloy HX, X, Nickel alloys, stainless steel, carbon steel and low alloyed steels. …
  3. … layer with OA 4370 or OA MnCr is recommended in case of sensible base material or old layers. Weldable without protective gas. … Cement …
  4. … Titanium carbides. The choice for the buffer layer is depending on the base metal and not always necessary.  … HRc 54-59, hardfacing alloy for …
  5. … working together, we can create a potential expansion of your customer base. Business/Sales Meetings The conference room and bar/lounge on the …
  6. … 450ºC. The recommended preheat temperature is 200ºC - 300°C unless the base material requires a higher preheat temperature. Use DC+ polarity …
  7. … without any risk of braking out or chipping of. In case of sensitive base material preheating is recommended at 300 - 400 °C. Old Hardfacing …
  8. … layer with OA 4370 or OA MnCr is recommended in case of sensible base material or old hardface-layers. Weldable without protective gas. …
  9. … as an indispensable link across various industries. This high-quality nickel-chromium alloy has made its mark in aerospace, energy, chemical …
  10. … tools, hardening is possible. The maximum hardness is dependent on the base metal and is achieved in the first layer. For material considered …