A Novel Form “Bubble Microstructure” in LPBF and Investigation of Its Mechanical Strength on TPMS‑Gyroid
Citation
ÇALIŞKAN, Cemal İrfan, Gökhan ÖZER & Hamaid Mahmood KHAN. "A Novel Form “Bubble Microstructure” in LPBF and Investigation of Its Mechanical Strength on TPMS‑Gyroid." Metals and Materials International, (2024): 1-10.Abstract
In our previous research within the scope of process parameters change, the innovative 30 μm synchronous scanning strategy
(SSS) in the Laser Powder Bed Fusion production system and the effect of this scanning strategy on industrial gears were
discussed in the microstructure examination of industrial gears produced with this scanning strategy. It was observed that the
Additive Manufacturing (AM) traditional melt pool form changed, and the strength increased by approx. 23%. In this article,
carried out in the second stage, a new microstructure in the form of bubbles obtained with this new synchronous scanning
strategy, discussed in depth with laboratory research, is defined as “Bubble Microstructure.” This new microstructure definition,
which constitutes the innovative side of the study, is in addition to the 30 μm SSS research that was discussed in the
first phase of the study; 40 μm SSS production and research carried out at this stage are detailed within the scope of tensile
tests in ASTM-E8 standard, detailed microstructure examinations in OM (Optic Microscope) and SEM (Scanning Electron
Microscope), EDX, XRD analyzes and the mechanical strength effect of this microstructure on the Triple Periotic Minimal
Surfaces geometry. This new SSS approach is considered promising in industrial areas where innovative geometries can be
produced with AM, weight-reduced designs using topology optimization, and DfAM (Design for Additive Manufacturing)
are used.