Design of a low Young's modulus Ti-Zr-Nb-Sn biocompatible alloy by in situ laser powder bed fusion additive manufacturing process
H Schaal, P Castany, P Laheurte, T Gloriant - Journal of Alloys and …, 2023 - Elsevier
A new metastable β Ti-22Zr-11 Nb-2Sn (at%) biomedical titanium alloy was elaborated from
elemental powders by in situ laser powder bed fusion technique (L-PBF). Iterative design of …
elemental powders by in situ laser powder bed fusion technique (L-PBF). Iterative design of …
Design of a low Young's modulus Ti-Zr-Nb-Sn biocompatible alloy by in situ laser powder bed fusion additive manufacturing process
H Schaal, P Castany, P Laheurte… - Journal of Alloys and …, 2023 - artsetmetiers.hal.science
A new metastable beta Ti-22Zr-11 Nb-2Sn (at%) biomedical titanium alloy was elaborated
from elemental powders by in situ laser powder bed fusion technique (L-PBF). Iterative …
from elemental powders by in situ laser powder bed fusion technique (L-PBF). Iterative …
Design of a low Young's modulus Ti-Zr-Nb-Sn biocompatible alloy by in situ laser powder bed fusion additive manufacturing process
H Schaal, P Castany, P Laheurte… - Journal of Alloys and …, 2023 - hal.science
A new metastable beta Ti-22Zr-11 Nb-2Sn (at%) biomedical titanium alloy was elaborated
from elemental powders by in situ laser powder bed fusion technique (L-PBF). Iterative …
from elemental powders by in situ laser powder bed fusion technique (L-PBF). Iterative …
Design of a low Young's modulus Ti-Zr-Nb-Sn biocompatible alloy by in situ laser powder bed fusion additive manufacturing process
H Schaal, P Castany, P Laheurte… - Journal of Alloys and …, 2023 - univ-rennes.hal.science
A new metastable beta Ti-22Zr-11 Nb-2Sn (at%) biomedical titanium alloy was elaborated
from elemental powders by in situ laser powder bed fusion technique (L-PBF). Iterative …
from elemental powders by in situ laser powder bed fusion technique (L-PBF). Iterative …
Design of a low Young's modulus Ti-Zr-Nb-Sn biocompatible alloy by in situ laser powder bed fusion additive manufacturing process
H Schaal, P Castany, P Laheurte… - Journal of Alloys and …, 2023 - inria.hal.science
A new metastable beta Ti-22Zr-11 Nb-2Sn (at%) biomedical titanium alloy was elaborated
from elemental powders by in situ laser powder bed fusion technique (L-PBF). Iterative …
from elemental powders by in situ laser powder bed fusion technique (L-PBF). Iterative …
Design of a low Young's modulus Ti-Zr-Nb-Sn biocompatible alloy by in situ laser powder bed fusion additive manufacturing process
H Schaal, P Castany, P Laheurte… - Journal of Alloys and …, 2023 - insa-rennes.hal.science
A new metastable beta Ti-22Zr-11 Nb-2Sn (at%) biomedical titanium alloy was elaborated
from elemental powders by in situ laser powder bed fusion technique (L-PBF). Iterative …
from elemental powders by in situ laser powder bed fusion technique (L-PBF). Iterative …
Design of a low Young's modulus Ti-Zr-Nb-Sn biocompatible alloy by in situ laser powder bed fusion additive manufacturing process
H Schaal, P Castany, P Laheurte… - Journal of Alloys and …, 2023 - cnrs.hal.science
A new metastable beta Ti-22Zr-11 Nb-2Sn (at%) biomedical titanium alloy was elaborated
from elemental powders by in situ laser powder bed fusion technique (L-PBF). Iterative …
from elemental powders by in situ laser powder bed fusion technique (L-PBF). Iterative …
[PDF][PDF] Design of a low Young's modulus Ti-Zr-Nb-Sn biocompatible alloy by in situ laser powder bed fusion additive manufacturing process
H Schaal, P Castany, P Laheurte, T Gloriant - hal.science
A new metastable β Ti-22Zr-11Nb-2Sn (at%) biomedical titanium alloy was elaborated from
elemental powders by in situ laser powder bed fusion technique (L-PBF). Iterative design of …
elemental powders by in situ laser powder bed fusion technique (L-PBF). Iterative design of …