Litcius/Paper detail

In-situ selective laser heat treatment for microstructural control of additively manufactured Ti-6Al-4V

Reza Esmaeilzadeh, Milad Hamidi Nasab, Charlotte de Formanoir, Lucas Schlenger, S. Van Petegem, Claire Navarre, Cyril Cayron, Nicola Casati, Daniel Grolimund, Roland E. Logé

2023Additive manufacturing23 citationsDOIOpen Access PDF

Abstract

As-built Laser Powder Bed Fusion (LPBF) Ti-6Al-4V typically exhibits a fully acicular α′-martensite microstructure, and requires post-process heat treatment in order to decompose the martensite and achieve sufficient ductility. In the present study, we demonstrate a simple concept based on in-situ Selective Laser Heat Treatment (SLHT) that can effectively alter the microstructure and activate the decomposition of the α′-martensite into a lamellar α+β microstructure within a short time scale (~30 s). SLHT consists of multiple rescanning of the printed part, with low energy density, triggering solid-state phase transformations. Operando X-ray diffraction has been performed on cuboid and thin wall geometries, and was augmented by thermal finite element simulations. Upon SLHT, a gradual formation of the β phase as well as an α/α′peak narrowing trend have been evidenced through X-ray diffraction, as an indication of the diffusional nature of α′-martensite decomposition. Moreover, through fine tuning of the process parameters at the final stage of SLHT, a controlled temperature evolution during cooling was achieved, leading to preservation of the β phase, a product of the decomposition, down to room temperature. Complementary microstructural characterizations via EBSD, SEM, and TEM confirm the presence of a lamellar α+β microstructure after SLHT. Our results evidence, for the first time, the fast kinetics of α′-martensite decomposition under in-situ SLHT. The approach is meant to be implemented at selected locations during the LPBF process, avoiding time-consuming post processing steps, and leading to composite-like, architected microstructures.

Topics & Concepts

Materials scienceMicrostructureLamellar structureAcicularMartensiteDuctility (Earth science)Phase (matter)Composite materialElectron backscatter diffractionMetallurgyCreepChemistryOrganic chemistryAdditive Manufacturing Materials and ProcessesHigh Entropy Alloys StudiesAdditive Manufacturing and 3D Printing Technologies