Thermo‑Mechanical Simulations of Selective Laser Melting for AlSi10Mg Alloy to Predict the Part‑scale Deformations
Citation
SÖYLEMEZ, Emrecan, Ebubekir KOÇ & Mert COŞKUN. "Thermo‑Mechanical Simulations of Selective Laser Melting for AlSi10Mg Alloy to Predict the Part‑scale Deformations". Progress in Additive Manufacturing, 4.4 (2019): 465-478.Abstract
Abstract
Selective laser melting (SLM) is one of the most frequently employed metal additive manufacturing methods. Various
industries such as aerospace, automotive, biomedical, and tooling utilize SLM parts. Although it has a wide scope of applications,
it demands a thorough understanding to supply reliable parts. Thus, process simulations are key methods to optimize
the process and to shorten the product development time. SLM allows manufacturing of steel, nickel, cobalt, chromium,
titanium, and aluminum alloy parts. Aluminum alloys are one of the most common materials processed in the manufacturing
industry, and AlSi10Mg is one of the SLM-compatible alloys which requires further understanding. This study focuses
on AlSi10Mg alloy SLM simulations to predict the part deformations accurately. The proposed material properties of cast
AlSi10Mg alloy simulations closely agreed with the experimental results, and this specific model is expected to aid design
engineers to fabricate their parts with better consistency.