Campus Units

Materials Science and Engineering

Document Type

Article

Publication Version

Published Version

Publication Date

2017

Journal or Book Title

Metallurgical and Materials Transactions A

Volume

48

Issue

7

First Page

3606

Last Page

3622

DOI

10.1007/s11661-017-4120-z

Abstract

Additive manufacturing (AM) processes have many benefits for the fabrication of alloy parts, including the potential for greater microstructural control and targeted properties than traditional metallurgy processes. To accelerate utilization of this process to produce such parts, an effective computational modeling approach to identify the relationships between material and process parameters, microstructure, and part properties is essential. Development of such a model requires accounting for the many factors in play during this process, including laser absorption, material addition and melting, fluid flow, various modes of heat transport, and solidification. In this paper, we start with a more modest goal, to create a multiscale model for a specific AM process, Laser Engineered Net Shaping (LENS™), which couples a continuum-level description of a simplified beam melting problem (coupling heat absorption, heat transport, and fluid flow) with a Lattice Boltzmann-cellular automata (LB-CA) microscale model of combined fluid flow, solute transport, and solidification. We apply this model to a binary Ti-5.5 wt pct W alloy and compare calculated quantities, such as dendrite arm spacing, with experimental results reported in a companion paper.

Comments

This article is published as Matt Rolchigo, Michael Mendoza Londono, Peyman Samimi, David Brice, Brian Martin, Peter Collins, and Richard LeSar , “Modeling of solidification in Ti-W alloys under additive manufacturing conditions”, Metallurgical and Materials Transactions A, 48(7), 3606-3622. doi:10.1007/s11661-017-4120-z. Posted with permission.

Creative Commons License

Creative Commons Attribution 4.0 License
This work is licensed under a Creative Commons Attribution 4.0 License.

Copyright Owner

The Authors

Language

en

File Format

application/pdf

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