Litcius/Paper detail

Dissimilar micro beam welding of titanium to Nitinol and stainless steel using biocompatible filler materials for medical applications

Michael Wiegand, Linda Marks, Niklas Sommer, Stefan Böhm

2022Welding in the World22 citationsDOIOpen Access PDF

Abstract

Abstract In the present investigation, thin sheet geometries of commercially pure titanium (cp, grade 4) are butt-welded to AISI 316L stainless steel as well as Nitinol by means of micro electron beam welding using filler materials. In order to avoid mixing of the base materials, the refractory metals tantalum, niobium and hafnium are applied as intermediate layers. Owing to the biocompatibility of these filler materials, the final products are suitable for medical technology applications. In combination with low energy inputs and precise beam alignments, it is demonstrated that high-quality and crack-free joints can be produced using micro electron beam welding. The welded joints are analysed using nanoindentation to identify critical weld areas, e.g. high concentrations of intermetallic compounds, and to evaluate the compatibility of the base and filler materials. To correlate the hardness mappings with the microstructural evolution of the welds, an exemplary joint is analysed by means of electron backscatter diffraction and energy dispersive X-ray spectroscopy with special emphasis on intermixing and the formation of intermetallic compounds. Based on the generated hardness mappings as well as the ultimate tensile strengths of the joints, it will be concluded which filler material provides the most promising results for the given material combinations.

Topics & Concepts

Materials scienceWeldingElectron beam weldingNiobiumTitaniumIntermetallicTantalumComposite materialMetallurgyIndentation hardnessCathode rayMicrostructureAlloyElectronQuantum mechanicsPhysicsTitanium Alloys Microstructure and PropertiesWelding Techniques and Residual StressesAdvanced Welding Techniques Analysis
Dissimilar micro beam welding of titanium to Nitinol and stainless steel using biocompatible filler materials for medical applications | Litcius