Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
11020076 | Materials Characterization | 2018 | 9 Pages |
Abstract
The microstructures of alloys created via Additive Manufacturing (AM) can vary substantially from those present in cast or wrought products, due to the very rapid solidification associated with AM. While numerous studies have investigated the process-microstructure relationship of alloys created by Selective Laser Melting (SLM), few have investigated the effects of laser rescanning to alter the microstructure or take advantage of the rapid solidification conditions the process provides. This study investigates the effect of single- or multiple pass laser scanning upon the grain structure of Addalloyâ¢, a new Al-Mg-Zr alloy strengthened via L12 Al3Zr precipitates. The bottom of the melt pools consisted of fine equiaxed grains (1.3â¯Î¼m) that nucleated from primary Al3Zr (100-400â¯nm) precipitates. The top of the melt pool consists of columnar grains (up to 40â¯Î¼m long), consistent with lack of Al3Zr nucleants due to Zr solute trapping from increased solidification velocities. Additional laser scanning (a second or third scan) reduces the amounts of columnar grains and increased the number equiaxed grains. The change is attributed to a shallower melt pool remelting the columnar grain region upon rescanning, due to reduced laser energy absorption and increased heat losses in the solid.
Related Topics
Physical Sciences and Engineering
Materials Science
Materials Science (General)
Authors
S. Griffiths, M.D. Rossell, J. Croteau, N.Q. Vo, D.C. Dunand, C. Leinenbach,