Affiliation:
1. Department of Mechanical Engineering University of Utah Salt Lake City Utah USA
Abstract
AbstractIn this study, laser powder bed fusion (LPBF)‐produced Ti‐6Al‐4V is subjected to three separate post‐build heat treatments (HTs), specifically (1) a one‐step annealing HT exceeding the
‐transus temperature, (2) a two‐step annealing HT whose first step exceeds the
‐transus temperature and the second step is an anneal below the
‐transus temperature, and (3) a sawtooth HT with temperatures oscillating below the
‐transus temperature. Tensile properties and fatigue crack growth behavior were assessed and compared to wrought Ti‐6Al‐4V. LPBF materials nominally exhibited a 17% yield stress reduction, 1.9% strain‐to‐failure increase, and 9.2% modulus of toughness decrease. Fatigue crack growth curves were used to assess the linear crack growth rate region and approximate fracture toughness (
). Post‐mortem fractography observed striations indicating the crack growth direction frequently changes direction providing an understanding of the slower crack growth rates observed in LPBF materials compared to their wrought counterpart.