Materials & Design (Mar 2022)

Closed-loop control of meltpool temperature in directed energy deposition

  • Ziyad Smoqi,
  • Benjamin D. Bevans,
  • Aniruddha Gaikwad,
  • James Craig,
  • Alan Abul-Haj,
  • Brent Roeder,
  • Bill Macy,
  • Jeffrey E. Shield,
  • Prahalada Rao

Journal volume & issue
Vol. 215
p. 110508

Abstract

Read online

The objective of this work is to mitigate flaw formation in powder and laser-based directed energy deposition (DED) additive manufacturing process through close-loop control of the meltpool temperature. In this work, the meltpool temperature was controlled by modulating the laser power based on feedback signals from a coaxial two-wavelength imaging pyrometer. The utility of closed-loop control in DED is demonstrated in the context of practically inspired trapezoid-shaped stainlesssteel parts (SS 316L). We demonstrate that parts built under closed-loop control have reduced variation in porosity and uniform microstructure compared to parts built under open-loop conditions. For example, post-process characterization showed that closed-loop processed parts had a volume percent porosity ranging from 0.036% to 0.043%. In comparison, open-loop processed parts had a larger variation in volume percent porosity ranging from 0.032% to 0.068%. Further, parts built with closed-loop processing depicted consistent dendritic microstructure. By contrast, parts built with open-loop processing showed microstructure heterogeneity with the presence of both dendritic and planar grains, which in turn translated to large variation in microhardness.

Keywords