Orientation matters: Assessing the cyclic deformation behaviour of laser powder bed fusion Ti-6Al-4V

The orientation dependency of the fatigue behaviour of laser powder bed fusion Ti-6Al-4V has been analyzed and rationalized. Seven build orientations relative to the build plate have been studied. The 75° specimen demonstrates the highest fatigue life owing to the optimal surface quality and low pro...

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Bibliographic Details
Published in:Materials & design 2024-12, Vol.248, p.113485, Article 113485
Main Authors: Zhang, Jieming S., Deng, Yun, Liu, Huifang, Tang, Yuanbo T., Lui, Andrew, Grant, Patrick S., Alabort, Enrique, Reed, Roger C., Cocks, Alan C.F.
Format: Article
Language:English
Subjects:
Fatigue
Laser powder bed fusion
Orientation-dependency
Titanium
X-ray computed tomography
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Summary:The orientation dependency of the fatigue behaviour of laser powder bed fusion Ti-6Al-4V has been analyzed and rationalized. Seven build orientations relative to the build plate have been studied. The 75° specimen demonstrates the highest fatigue life owing to the optimal surface quality and low proportions of grains near-parallel to the loading direction. When the build orientation is 30° or below, only defects on the downward-facing surface serve as the fatigue crack initiation sites as a result of the poor surface quality. Beyond 45°, cracks begin to initiate from the otherward-facing surface owing to the reduced variation in Ra across the sample surface. The large variation in the size and number of pore clusters near the initiation site governs the highest fatigue scatter of the 75° specimen whereas the difference in crack initiation sites of the 45° specimen results in the large difference in fatigue life. Our results demonstrate that the orientation effect is a critical factor to consider for the design of fatigue-tolerant intricate components. •The orientation dependency of fatigue behaviour of laser powder bed fusion Ti-6Al-4V was elucidated.•75° specimen demonstrates the optimal fatigue resistance.•Build orientation can be leveraged to mitigate the presence of structural inhomogeneities in laser powder bed fusion parts.
ISSN:0264-1275
DOI:10.1016/j.matdes.2024.113485