Effects of the microstructure and porosity on properties of Ti-6Al-4V ELI alloy fabricated by electron beam melting (EBM)

Haize Galarraga, Diana A. Lados, Ryan R. Dehoff, Michael M. Kirka, Peeyush Nandwana

Research output: Contribution to journalArticlepeer-review

316 Scopus citations

Abstract

Electron beam melting (EBM) is a metal powder bed fusion additive manufacturing (AM) technology that makes possible the fabrication of three-dimensional near-net-shaped parts directly from computer models. EBM technology has been continuously evolving, optimizing the properties and the microstructure of the as-fabricated alloys. Ti-6Al-4V ELI (Extra Low Interstitials) titanium alloy is the most widely used and studied alloy for this technology and is the focus of this work. Several research works have been completed to study the mechanisms of microstructure formation, evolution, and its subsequent influence on mechanical properties of the alloy. However, the relationship is not completely understood, and more systematic research work is necessary in order to attain a better understanding of these features. In this work, samples fabricated at different locations, orientations, and distances from the build platform have been characterized, studying the relationship of these variables with the resulting material intrinsic characteristics and properties (surface topography, microstructure, porosity, micro-hardness and static mechanical properties). This study has revealed that porosity is the main factor controlling mechanical properties relative to the other studied variables. Therefore, in future process development, decreasing the porosity should be considered the primary goal in order to improve mechanical properties.

Original languageEnglish
Pages (from-to)47-57
Number of pages11
JournalAdditive Manufacturing
Volume10
DOIs
StatePublished - Apr 1 2016

Funding

This research was performed under the Additive Manufacturing program of the Integrative Material Design Center (iMdc) consortium at Worcester Polytechnic Institute, in collaboration with the Additive Manufacturing Demonstration Facility of Oak Ridge National Laboratory, and sponsored by the US Department of Energy, Office of Energy Efficiency and Renewable Energy, Advanced Manufacturing Office , under contract DE-AC05-00OR22725 with UT-Battelle, LLC. WPI students, Matthew Gleason (Surface Metrology Laboratory), Yuwei Zhai, and Anthony Spangenberger (iMdc) also collaborated actively in the characterization process performed during the research.

FundersFunder number
US Department of Energy
Worcester Polytechnic Institute
Advanced Manufacturing OfficeDE-AC05-00OR22725
Office of Energy Efficiency and Renewable Energy
Oak Ridge National Laboratory

    Keywords

    • Additive manufacturing
    • Electron beam melting
    • Porosity
    • Properties
    • Titanium

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