Influence of laser powder bed fusion process parameters on voids, cracks, and microhardness of nickel-based superalloy alloy 247LC [Elektronisk resurs]

• The manufacturing of parts from nickel-based superalloy Alloy 247LC by laser powder bed fusion (L-PBF) is challenging, primarily owing to the alloy’s susceptibility to cracks. Apart from the cracks, voids created during the L-PBF process should also be minimized to produce dense parts. In this study, samples of Alloy 247LC were manufactured by L-PBF, several of which could be produced with voids and crack density close to zero. A statistical design of experiments was used to evaluate the influence of the process parameters, namely laser power, scanning speed, and hatch distance (inherent to the volumetric energy density) on void formation, crack density, and microhardness of the samples. The window of process parameters, in which minimum voids and/or cracks were present, was predicted. It was shown that the void content increased steeply at a volumetric energy density threshold below 81 J/mm3. The crack density, on the other hand, increased steeply at a volumetric energy density threshold above 163 J/mm3. The microhardness displayed a relatively low value in three samples which displayed the lowest volumetric energy density and highest void content. It was also observed that two samples, which displayed the highest volumetric energy density and crack density, demonstrated a relatively high microhardness; which could be a vital evidence in future investigations to determine the fundamental mechanism of cracking. The laser power was concluded to be the strongest and statistically most significant process parameter that influenced void formation and microhardness. The interaction of laser power and hatch distance was the strongest and most significant factor that influenced the crack density. © 2020 by the authors. 

Ämnesord

Engineering and Technology  (hsv)

Materials Engineering  (hsv)

Manufacturing, Surface and Joining Technology  (hsv)

Teknik och teknologier  (hsv)

Materialteknik  (hsv)

Bearbetnings-, yt- och fogningsteknik  (hsv)

Genre

government publication  (marcgt)

Indexterm och SAB-rubrik

Design of experiments; Hatches; Microhardness; Superalloys

Fundamental mechanisms; Fusion process; Nickel- based superalloys; Process parameters; Scanning speed; Statistical design of experiments; Void formation; Volumetric energy densities

Nickel alloys