Study of accumulation behaviour of tungsten based composite using electron probe micro analyser for the application in bone tissue engineering

• Main Authors: Gang Chen, Zheng Fu, Hongli Guo, Sunil Kumar Pradhan, Pan Hao
• Format: Article
• Language: English
• Published: Elsevier 2020-11-01
• Series: Saudi Journal of Biological Sciences
• Subjects: Bone tissue engineering; Electron probe micro-analyzer; Composites; High energy ball mill; Sintering
• Online Access: http://www.sciencedirect.com/science/article/pii/S1319562X20303223

In this research, a proto-type study we have conducted, where we have synthesized tungsten based composite materials which are tungsten along with combined oxides of other elements like calcium, scandium, barium, and aluminium in the form of powder with bones powder of mice devised by high energy ball mill and later on fabricating high dense pellets by sintering by spark plasma. The particle sizes of the composite materials are found to be 1–2 µm, as evidenced by the electron microscope, suggesting synthesized materials are of micron size. The quantitative and qualitative analysis of sintered pellets are well confirmed by electron probe micro analyzer (EPMA) and energy dispersive X-ray spectrometer (EDS) which illustrate the greater percentage of tungsten presents in the profound scan areas with other elements of the composite. The absence of pores across the 3D geometry suggesting dense sample, which is quite revealed by the X-ray tomography inspection. The prepared sintered pellets from the tungsten based composites are found to be ≈ 99.5% density with the observation of tungsten to be accumulated uniformly across the scan regions along with focussed hot spots as implied by EPMA. This study paves the way, to examine how the tungsten accumulation and the distribution with the other elements for future understanding in bone tissue engineering application and the in vivo specification of tungsten.