[HTML][HTML] Hybrid manufacturing and performance evaluation of β Ti-alloy stents
Biomedical β Ti-alloys possess an interesting combination of mechanical properties,
including an elastic modulus lower than 60 GPa. In this study, a hybrid manufacturing route …
including an elastic modulus lower than 60 GPa. In this study, a hybrid manufacturing route …
A new design method for Ti-VMoCrFeAl titanium alloys with superb strength
S Sun, Z Xu, B Wu, J Wang, N Zou, C Esling - Materials Science and …, 2025 - Elsevier
This study developed a new design method for Ti-VMoCrFeAl titanium alloys. Based on the
selection of multiple elements, compositions of a series of Ti-VMoCrFeAl titanium alloys …
selection of multiple elements, compositions of a series of Ti-VMoCrFeAl titanium alloys …
Biomedical Ti–Nb–O alloy with high strength and ultra-low Young's modulus
Y Gao, J Chen, Y Gan, X Liang, H Chen… - Materials Research …, 2025 - Taylor & Francis
In this study, a novel (α+ β) dual-phase Ti–19Nb–0.6 O was developed and processed via
additive manufacturing, featuring ultra-low Young's modulus of 42 GPa approximating that of …
additive manufacturing, featuring ultra-low Young's modulus of 42 GPa approximating that of …
Ultra-precision surface treatment of beta-titanium alloy printed using laser and electron beam melting sources
Additive Manufacturing (AM) is a near net shape fabrication technology offering exceptional
design freedom for complex part production. However, the inadequate surface quality and …
design freedom for complex part production. However, the inadequate surface quality and …
HYBRID MULTI-LASER POWDER BED FUSION
HE CAGLAR - 2024 - etheses.whiterose.ac.uk
In Laser Powder Bed Fusion (LPBF) systems, both single fibre systems and multi-laser
systems are currently at the forefront of industry and academic research. Among the multi …
systems are currently at the forefront of industry and academic research. Among the multi …