Fabrication and mechanical properties of functionally graded material by electrophoretic deposition
This study describes the synthesis of Al(2)O(3)/SiC/ZrO(2) functionally graded material (FGM) in bio-implants (artificial joints) by electrophoretic deposition (EPD). A suitable suspension that was based on 2-butanone was applied for the EPD of Al(2)O(3)/SiC/ZrO(2), and a pressureless sintering proc...
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my.um.eprints.50432019-03-18T04:44:24Z http://eprints.um.edu.my/5043/ Fabrication and mechanical properties of functionally graded material by electrophoretic deposition Askari, E. Mehrali, M. Metselaar, I.H.S.C. Kadri, Nahrizul Adib Rahman, M.M. T Technology (General) This study describes the synthesis of Al(2)O(3)/SiC/ZrO(2) functionally graded material (FGM) in bio-implants (artificial joints) by electrophoretic deposition (EPD). A suitable suspension that was based on 2-butanone was applied for the EPD of Al(2)O(3)/SiC/ZrO(2), and a pressureless sintering process was applied as a presintering. Hot isostatic pressing (HIP) was used to densify the deposit, with beneficial mechanical properties after 2 h at 1800 degrees C in Ar atmosphere. The maximum hardness in the outer layer (90 vol. Al(2)O(3)+10 vol. SiC) and maximum fracture toughness in the core layer (75 vol. Al(2)O(3)+10 vol. SiC + 15 vol. ZrO(2)) composite were 20.8+/-0.3 GPa and 8+/-0.1 MPa m(1/2), respectively. The results, when compared with results from Al(2)O(3)/ZrO(2) FGM, showed that SiC increased the compressive stresses in the outer layers, while the inner layers were under a residual tensile stress. Elsevier 2012 Article PeerReviewed Askari, E. and Mehrali, M. and Metselaar, I.H.S.C. and Kadri, Nahrizul Adib and Rahman, M.M. (2012) Fabrication and mechanical properties of functionally graded material by electrophoretic deposition. Journal of the Mechanical Behavior of Biomedical Materials, 12. pp. 144-150. ISSN 1751-6161 |
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T Technology (General) Askari, E. Mehrali, M. Metselaar, I.H.S.C. Kadri, Nahrizul Adib Rahman, M.M. Fabrication and mechanical properties of functionally graded material by electrophoretic deposition |
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This study describes the synthesis of Al(2)O(3)/SiC/ZrO(2) functionally graded material (FGM) in bio-implants (artificial joints) by electrophoretic deposition (EPD). A suitable suspension that was based on 2-butanone was applied for the EPD of Al(2)O(3)/SiC/ZrO(2), and a pressureless sintering process was applied as a presintering. Hot isostatic pressing (HIP) was used to densify the deposit, with beneficial mechanical properties after 2 h at 1800 degrees C in Ar atmosphere. The maximum hardness in the outer layer (90 vol. Al(2)O(3)+10 vol. SiC) and maximum fracture toughness in the core layer (75 vol. Al(2)O(3)+10 vol. SiC + 15 vol. ZrO(2)) composite were 20.8+/-0.3 GPa and 8+/-0.1 MPa m(1/2), respectively. The results, when compared with results from Al(2)O(3)/ZrO(2) FGM, showed that SiC increased the compressive stresses in the outer layers, while the inner layers were under a residual tensile stress. |
| format |
Article |
| author |
Askari, E. Mehrali, M. Metselaar, I.H.S.C. Kadri, Nahrizul Adib Rahman, M.M. |
| author_facet |
Askari, E. Mehrali, M. Metselaar, I.H.S.C. Kadri, Nahrizul Adib Rahman, M.M. |
| author_sort |
Askari, E. |
| title |
Fabrication and mechanical properties of functionally graded material by electrophoretic deposition |
| title_short |
Fabrication and mechanical properties of functionally graded material by electrophoretic deposition |
| title_full |
Fabrication and mechanical properties of functionally graded material by electrophoretic deposition |
| title_fullStr |
Fabrication and mechanical properties of functionally graded material by electrophoretic deposition |
| title_full_unstemmed |
Fabrication and mechanical properties of functionally graded material by electrophoretic deposition |
| title_sort |
fabrication and mechanical properties of functionally graded material by electrophoretic deposition |
| publisher |
Elsevier |
| publishDate |
2012 |
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http://eprints.um.edu.my/5043/ |
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1643687472988684288 |
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13.209306 |