Influence of the Post-Processing Operations on Surface Integrity of Metal Components Produced by Laser Powder Bed Fusion Additive Manufacturing: a Review
Künye
KHAN, Hamaid Mahmood,Yusuf KARABULUT, Özhan KİTAY, Yusuf KAYNAK & I. S. JAWAHİR. "Influence of the Post-Processing Operations on Surface Integrity of Metal Components Produced by Laser Powder Bed Fusion Additive Manufacturing: a Review". Machining Science and Technology, 25.1 (2021): 118-176.Özet
As industries are increasingly adopting the laser powder bed
fusion (LPBF) additive manufacturing (AM) process, it is crucial
to understand the process closely and to find ways to improve
the final quality of the finished parts. The LPBF process is capable
of producing tailored designs, which are lighter in weight
and having strength comparable to conventional components.
However, the acquired surface texture and some of the mechanical
properties of LPBF-produced components are still substandard
compared to the conventional components. As of
now, the post-processing technique is witnessed as the only
sustainable approach to enhance the mechanical and microstructural
performance of the additive products since any further
optimization of the LPBF processing parameters is
reported inefficient in bringing the relevant changes in the asbuilt
LPBF parts. So far, several post-processing techniques
such as thermal, mechanical, and/or chemical-based have
been applied to different additive materials, and the results
have been beneficial. This article reviews the effects of postprocessing
operations on the surface integrity properties of
as-built LPBF parts, namely surface roughness, microhardness,
microstructure, mechanical strength, corrosion, and wear
resistance. The results of the post-processing operations are
also discussed and compared with the as-built and conventional
conditions for different engineering materials.