Litcius/Paper detail

Influence of phase transformation on the micromachinability of laser powder bed fused Inconel 718

S. Vishnu, Basil Kuriachen, Jose Mathew

2025Scientific Reports9 citationsDOIOpen Access PDF

Abstract

The characteristics of laser powder bed fusion (L-PBF) Inconel-718 (IN-718) differ from those of its wrought counterpart because of the rapid heating and cooling cycles involved during the process. Heat treatments are performed to enhance the characteristics of L-PBF IN-718 components before their suitability for practical applications. This investigation explores the influence of phase transformation-induced changes in the microstructure and thereby the machinability (specifically micro-turning) of L-PBF IN-718. Additionally, a comparison is made with its conventional counterparts (wrought specimens). The anisotropic characteristic of L-PBF IN-718 is only marginally affected by the standard double aging (DA) heat treatment. However, DA substantially impacts the microstructural characteristics, resulting in a notable increase in hardness of 12.2% and 20.7% for wrought and L-PBF IN-718 respectively due to precipitation of the hardening phases γ' and γ″. Experimental investigations were conducted to study the machining behaviour during micro-turning, focusing on cutting force, tool wear, surface roughness, and chip morphology. Noticeably, heat treatment led to a significant increase in the cutting force (120%), tool wear (67%), and surface roughness (33%) for the L-PBF samples, due to precipitation of γ' and γ″. Results indicate that to achieve better surface quality, it is recommended to machine the L-PBF specimens at a lower cutting speed whereas the wrought specimens at a higher cutting speed.

Topics & Concepts

InconelMachinabilityMaterials scienceMicrostructureMachiningSurface roughnessMetallurgySurface finishTool wearPrecipitationPrecipitation hardeningComposite materialAlloyPhysicsMeteorologyAdditive Manufacturing Materials and ProcessesAdditive Manufacturing and 3D Printing TechnologiesLaser Material Processing Techniques