Feasibility study of tinb alloys as medical implant using different processing techniques / Nur Hidayatul Nadhirah Elmi Azham Shah
The constant development of implant material and the search of biocompatible implant material of comparable mechanical properties towards the human bone have driven research on binary TiNb alloy. This study aims to develop β-rich TiNb alloy which is suitable for implant application and ultimately ha...
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my-uitm-ir.832772023-12-13T13:15:13Z Feasibility study of tinb alloys as medical implant using different processing techniques / Nur Hidayatul Nadhirah Elmi Azham Shah 2019 Elmi Azham Shah, Nur Hidayatul Nadhirah The constant development of implant material and the search of biocompatible implant material of comparable mechanical properties towards the human bone have driven research on binary TiNb alloy. This study aims to develop β-rich TiNb alloy which is suitable for implant application and ultimately has the Young’s modulus value which is close to the human bone. This study utilized elemental titanium (Ti) and Niobium (Nb) powders TiNb alloys with wt% of 10Nb, 25Nb, 40Nb and 45Nb. These alloys were produced utilizing three types of processing technique; arc melting, sintering in vacuum and sintering in argon atmosphere. All of the TiNb produced were compared in terms of phase constituent and mechanical properties. The phase arrangements and constituents of TiNb alloy were determined through Scanning Electron Microscopy (SEM) paired with Energy Dispersive X-ray (EDX) and X-ray Diffraction (XRD). As-melt and as-sintered Ti10Nb mainly consists of α-phase Ti whereas Ti25Nb consists of mixtures of metastable phases meanwhile, Ti40Nb and Ti45Nb were rich in β-phase Ti. As sintered TiNb alloys had a better atomic arrangement in comparison to as melted samples based on the XRD patterns. Differential Scanning Calorimetry (DSC) was performed from the temperature of -50oC to 500oC, clearly all of the samples does not show reversible α”→β phase transformation. TiNb alloys produced via arc melting had the highest Vickers hardness value ranging from 414HV to 462HV followed by TiNb alloys produced via vacuum sintering with the range of 297HV to 362HV whereas TiNb alloy produced via argon gas sintering exhibited the lowest hardness value with the range of 173HV to 249HV. The Young’s modulus obtained from the fabricated samples ranged from 24~30 GPa. These values are comparable to the Young’s modulus of the human bone which is in the range of 20 GPa. Data obtained from the XRD and monotonic compression were used in linear regression to obtain a formula for estimating Young’s modulus of TiNb alloy based on the phase constituents. Following the result obtained from phase and mechanical properties, the composition of Ti40Nb was selected for further prototype study of metallic bone staple. The samples were compacted and sintered in argon gas atmosphere followed by EDM wirecut to get the bone staple according to commercial size dimension. Based on the findings, Ti40Nb produced by sintering in argon atmosphere was fabricated into a metallic bone staple along with CpTi and stainless steel 316L grade. The bone staples underwent a four point bend test in order to measure its bending stiffness. The bending stiffness value obtained from the test on Ti40Nb produced via sintering in argon gas atmosphere was in the range of 7 N/mm. According to the fractured sample of Ti40Nb bone staple and the simulation made on four point bending, the most critical part of the bone staple is the connection between the bridge and the leg of the staple. Ti40Nb bone staple fracture exhibit microvoids coalescence dimples which indicates a ductile failure. 2019 Thesis https://ir.uitm.edu.my/id/eprint/83277/ https://ir.uitm.edu.my/id/eprint/83277/1/83277.pdf text en public phd doctoral Universiti Teknologi MARA (UiTM) Faculty of Mechanical Engineering |
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| description |
The constant development of implant material and the search of biocompatible implant material of comparable mechanical properties towards the human bone have driven research on binary TiNb alloy. This study aims to develop β-rich TiNb alloy which is suitable for implant application and ultimately has the Young’s modulus value which is close to the human bone. This study utilized elemental titanium (Ti) and Niobium (Nb) powders TiNb alloys with wt% of 10Nb, 25Nb, 40Nb and 45Nb. These alloys were produced utilizing three types of processing technique; arc melting, sintering in vacuum and sintering in argon atmosphere. All of the TiNb produced were compared in terms of phase constituent and mechanical properties. The phase arrangements and constituents of TiNb alloy were determined through Scanning Electron Microscopy (SEM) paired with Energy Dispersive X-ray (EDX) and X-ray Diffraction (XRD). As-melt and as-sintered Ti10Nb mainly consists of α-phase Ti whereas Ti25Nb consists of mixtures of metastable phases meanwhile, Ti40Nb and Ti45Nb were rich in β-phase Ti. As sintered TiNb alloys had a better atomic arrangement in comparison to as melted samples based on the XRD patterns. Differential Scanning Calorimetry (DSC) was performed from the temperature of -50oC to 500oC, clearly all of the samples does not show reversible α”→β phase transformation. TiNb alloys produced via arc melting had the highest Vickers hardness value ranging from 414HV to 462HV followed by TiNb alloys produced via vacuum sintering with the range of 297HV to 362HV whereas TiNb alloy produced via argon gas sintering exhibited the lowest hardness value with the range of 173HV to 249HV. The Young’s modulus obtained from the fabricated samples ranged from 24~30 GPa. These values are comparable to the Young’s modulus of the human bone which is in the range of 20 GPa. Data obtained from the XRD and monotonic compression were used in linear regression to obtain a formula for estimating Young’s modulus of TiNb alloy based on the phase constituents. Following the result obtained from phase and mechanical properties, the composition of Ti40Nb was selected for further prototype study of metallic bone staple. The samples were compacted and sintered in argon gas atmosphere followed by EDM wirecut to get the bone staple according to commercial size dimension. Based on the findings, Ti40Nb produced by sintering in argon atmosphere was fabricated into a metallic bone staple along with CpTi and stainless steel 316L grade. The bone staples underwent a four point bend test in order to measure its bending stiffness. The bending stiffness value obtained from the test on Ti40Nb produced via sintering in argon gas atmosphere was in the range of 7 N/mm. According to the fractured sample of Ti40Nb bone staple and the simulation made on four point bending, the most critical part of the bone staple is the connection between the bridge and the leg of the staple. Ti40Nb bone staple fracture exhibit microvoids coalescence dimples which indicates a ductile failure. |
| format |
Thesis |
| qualification_name |
Doctor of Philosophy (PhD.) |
| qualification_level |
Doctorate |
| author |
Elmi Azham Shah, Nur Hidayatul Nadhirah |
| spellingShingle |
Elmi Azham Shah, Nur Hidayatul Nadhirah Feasibility study of tinb alloys as medical implant using different processing techniques / Nur Hidayatul Nadhirah Elmi Azham Shah |
| author_facet |
Elmi Azham Shah, Nur Hidayatul Nadhirah |
| author_sort |
Elmi Azham Shah, Nur Hidayatul Nadhirah |
| title |
Feasibility study of tinb alloys as medical implant using different processing techniques / Nur Hidayatul Nadhirah Elmi Azham Shah |
| title_short |
Feasibility study of tinb alloys as medical implant using different processing techniques / Nur Hidayatul Nadhirah Elmi Azham Shah |
| title_full |
Feasibility study of tinb alloys as medical implant using different processing techniques / Nur Hidayatul Nadhirah Elmi Azham Shah |
| title_fullStr |
Feasibility study of tinb alloys as medical implant using different processing techniques / Nur Hidayatul Nadhirah Elmi Azham Shah |
| title_full_unstemmed |
Feasibility study of tinb alloys as medical implant using different processing techniques / Nur Hidayatul Nadhirah Elmi Azham Shah |
| title_sort |
feasibility study of tinb alloys as medical implant using different processing techniques / nur hidayatul nadhirah elmi azham shah |
| granting_institution |
Universiti Teknologi MARA (UiTM) |
| granting_department |
Faculty of Mechanical Engineering |
| publishDate |
2019 |
| url |
https://ir.uitm.edu.my/id/eprint/83277/1/83277.pdf |
| _version_ |
1794191970660253696 |