ANSYS Modeling for Bone Reconstruction by Using Hybrid Nano Bio Composite

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Sattar Kashan J.; Mahmood Ali S.

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Journal: Journal of Solid Mechanics Year:2020 | Volume:12 | Issue:4 Page(s): 774-790

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Title

ANSYS Modeling for Bone Reconstruction by Using Hybrid Nano Bio Composite

Author(s)

Sattar Kashan J. | Mahmood Ali S. | Issue Writer Certificate

Keywords

Femur bone ANSYS modeling

Nano HDPE /ceramic Biocomposites

Titanium Oxide

Yttria stabilized zirconia (Y-PSZ)

Bone biomechanics

Abstract

In the present work, an attempt has been made to study and improve the physical and biomechanical properties of adding Titanium dioxide (TiO2) and yttria stabilized zirconia (Y-PSZ) Nano fillers ceramic particles for reinforced the high density polyethylene (HDPE) matrix Nanocomposites for fabricated six bio nanocomposites hybrid by using hot pressing technique at different compounding temperature of (180, 190, and 200 ° C) and compression pressures of (30, 60, and 90 MPa). The fabricated Nano systems were designed, produced and investigated for use in repairs and grafting of the human bones, which are exposed to accidents or lifethreatening diseases. The main current research results show that with the increase of the TiO2 filler contain from 0 to 10 %, the value bulk densities increase by 30. 24 % and when adding 2% partial stabilized zirconia (YPSZ), this value was further increased by 13. 91%. For the same conditions the value percentages true porosity decrease by 48. 68 % and further by 84. 85 %, respectively. For the same previous parametric values, it has also been accessed that the maximum compression strength for this study was increased by 33. 34 % and then further by 22 %, where these values higher by 90. 11% than the previous mentioned studies. The micro-Vickers Hardness increased by 30. 11 % for the second manufacturing system comparing with the first one, while the maximum equivalent von– Misses Stresses obtained from the current work withstand higher stresses than the natural bone by 52. 65 higher than the previous studies. The stress safety factors increase by 58. 38 % and by 21. 42 % for the first and second systems, respectively. The achieved results values for the modeled femur bone is equivalent to actual service of the activity during normal movement of the patient. These results give great the designers choices to use successful bio composites for in vivo tests according to the clinical situation, age and the static and dynamic loads when designing a material to repair the fractured bones due to different types of accidents.

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APA: Copy

Sattar Kashan, J., & Mahmood Ali, S.. (2020). ANSYS Modeling for Bone Reconstruction by Using Hybrid Nano Bio Composite. JOURNAL OF SOLID MECHANICS, 12(4), 774-790. SID. https://sid.ir/paper/772132/en

Vancouver: Copy

Sattar Kashan J., Mahmood Ali S.. ANSYS Modeling for Bone Reconstruction by Using Hybrid Nano Bio Composite. JOURNAL OF SOLID MECHANICS[Internet]. 2020;12(4):774-790. Available from: https://sid.ir/paper/772132/en

IEEE: Copy

J. Sattar Kashan, and S. Mahmood Ali, “ANSYS Modeling for Bone Reconstruction by Using Hybrid Nano Bio Composite,” JOURNAL OF SOLID MECHANICS, vol. 12, no. 4, pp. 774–790, 2020, [Online]. Available: https://sid.ir/paper/772132/en

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