Repairing parts from nickel base material alloy by laser cladding and ball end milling

Repairing parts from nickel base material alloy by laser cladding and ball end milling

Kategorien Zeitschriften/Aufsätze (reviewed)
Jahr 2016
Autoren Böß, V., Denkena, B., Wesling, V., Kaierle, S., Rust, F., Nespor, D., Rottwinkel, B.:
Veröffentlicht in Production Engineering Research and Development (WGP), Vol. 10, Issue 4, S. 433 – 441.

Due to rising costs of raw material, companies of the aerospace industry increasingly seek to repair components of aircraft engines instead of replacing them. Particularly the clad repair of turbine blades made of high strength nickel-base alloys with directionally solidified or single crystalline structure is a difficult issue, especially due to high requirements regarding the conditions of the final part surface. The present work deals with the question
whether the prediction of surface and subsurface conditions, e.g. surface topography and residual stresses, is
possible after repairing the inhomogeneous nickel-base alloy Rene 80. For this purpose, laser deposition cladding
is applied for the polycrystalline Rene 80, using the filler material Rene 142. In the following re-contouring process, the claddings are milled with a ball end mill cutter. The influence of the inhomogeneous base material and the shape of the clad on the cutting forces as well as the final part surface are experimentally investigated. Superficial residual stresses are measured and evaluated. The cutting forces and the final surface reveal characteristic variations in the area of the material deposition and the dendrites. A geometric process simulation shows that the prediction of
cutting forces and surface conditions for the polycrystalline material is only possible to some extent.

DOI 10.1007/s11740-016-0690-7