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Bio-functional Coating on Selective Laser Melting Manufactured Porous Ti6Al4V Scaffolds Produced by Using Plasma Electrolytic Oxidation
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| Title: | Bio-functional Coating on Selective Laser Melting Manufactured Porous Ti6Al4V Scaffolds Produced by Using Plasma Electrolytic Oxidation |
| Other Titles: | 選択的レーザー溶融製造多孔質Ti6Al4Vスキャフォルドのプラズマ電解酸化による生体機能コーティング |
| Authors: | BINTI ZAKARIA, SITI HIDAYATUL AQMAR Browse this author |
| Issue Date: | 25-Dec-2020 |
| Publisher: | Hokkaido University |
| Abstract: | The recent advances in manufacturing such as selective laser melting (SLM) have allowed the fabrication of complex geometries and lightweight three-dimensional (3D) components. Lattice structure serves as an alternative design to existing implants by reducing the stiffness thereupon to eliminate the stress-shielding effect whilst improving the osseointegration process. In purpose to reinforce the osseointegration with the adjacent tissue after the surgery, the porous scaffold is coated with bio-functional coating by using plasma electrolytic oxidation (PEO) technique. Ti6Al4V has been material of choice for medical application and it is viable for SLM technology and PEO technique. The aim of this study is four-fold. Firstly, to develop SLM manufactured porous Ti6Al4V coated with a bio-functional PEO-treated layer. Secondly, to evaluate the characteristics of bio-functional PEO coatings on SLM manufactured porous Ti6Al4V scaffolds. Thirdly, to investigate the mechanical properties of scaffolds and the effect of PEO process on mechanical strength of SLM manufactured scaffolds. Fourthly, and last, to identify the bioactivity of the PEO-treated scaffolds with Simulated Body Fluid (SBF) immersion test.
Coating formed were probed using field emission scanning electron microscopy (FESEM), electron dispersive spectroscopy (EDS), X-ray diffraction analysis (XRD) and X-ray photoelectron spectroscopy (XPS). ImageJ open software was used to carry out image analysis, which allowed the investigation of coating properties such as size of micropores formed on the coating. The compressive test according to ISO 13314:2011 was conducted on the scaffolds and showed a comparable result to human cancellous bone mechanical properties. The scaffolds also have the ability of apatite formation after 28 days of immersion time.
This study has indicated the potential of PEO treatment of Ti6Al4V porous scaffolds for orthopedic implants in the aspect of bio-functionality and bioactivity of the coating. Additionally,PEO treatment slightly enhances the mechanical properties of SLM manufactured Ti6Al4V porous scaffolds with increasing treatment time. These results provide a benchmark against which further work optimizing PEO process parameters on SLM manufactured porous Ti6Al4V to enhance the bio-functionality of scaffolds could be undertaken. |
| Conffering University: | 北海道大学 |
| Degree Report Number: | 甲第14302号 |
| Degree Level: | 博士 |
| Degree Discipline: | 工学 |
| Examination Committee Members: | (主査) 教授 東藤 正浩, 教授 大橋 俊朗, 教授 佐々木 克彦 |
| Degree Affiliation: | 工学院(人間機械システムデザイン専攻) |
| Type: | theses (doctoral) |
| URI: | http://hdl.handle.net/2115/83701 |
| Appears in Collections: | 課程博士 (Doctorate by way of Advanced Course) > 工学院(Graduate School of Engineering)
学位論文 (Theses) > 博士 (工学)
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