Enzoh Langi scite author profile

This paper focuses on microstructural and mechanical characterization of metallic thin-walled tube produced with additive manufacturing (AM), as a promising alternative technique for the manufacturing of tubes as a feedstock for stents micromachining. Tubes, with a wall thickness of 500 μm, were made of 316L stainless steel using selective laser melting. Its surface roughness, constituting phases, underlying microstructures and chemical composition were analyzed. The dependence of hardness and elastic modulus on the crystallographic orientation were investigated using electron backscatter diffraction and nanoindentation. Spherical nanoindentation was performed to extract the indentation stress–strain curve from the load–displacement data. The obtained results were compared with those for a commercial 316L stainless steel stent. Both tube and commercial stent samples were fully austenitic, and the as-fabricated surface finish for the tube was much rougher than the stent. Microstructural characterization revealed that the tube had a columnar and coarse grain microstructure, compared to equiaxed grains in the commercial stent. Berkovich nanoindentation suggested an effect for the grain orientation on the hardness and Young’s modulus. The stress–strain curves and the indentation yield strength for the tube and stent were similar. The work is an important step toward AM of patient-specific stents.

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Development, characterisation, and modelling of processability of nitinol stents using laser powder bed fusion

Jamshidi

Panwisawas

Langi

et al. 2022

Journal of Alloys and Compounds

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Characterisation of Additively Manufactured Metallic Stents

Langi

Bisht

Silberschmidt

et al. 2019

Procedia Structural Integrity

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In silico evaluation of additively manufactured 316L stainless steel stent in a patient-specific coronary artery

Langi²,

Garrard³

et al. 2022

Medical Engineering & Physics

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Enzoh Langi

A comparative study of microstructures and nanomechanical properties of additively manufactured and commercial metallic stents

Microstructural and Mechanical Characterization of Thin-Walled Tube Manufactured with Selective Laser Melting for Stent Application

Development, characterisation, and modelling of processability of nitinol stents using laser powder bed fusion

Characterisation of Additively Manufactured Metallic Stents

In silico evaluation of additively manufactured 316L stainless steel stent in a patient-specific coronary artery

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