Journal
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING
Volume 725, Issue -, Pages 43-50Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.msea.2018.04.009
Keywords
Finite element analysis; Micromechanical modelling; Porous titanium; Biomaterial
Categories
Funding
- Queensland Centre for Advanced Materials Processing and Manufacturing (AMPAM)
- Australian Research Council through the ARC Research Hub for transforming Australian industry through Additive Manufacturing [IH130100008]
- ARC Research Hub for Advanced Manufacturing of Medical Devices [IH150100024]
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In biomedical implant applications, porous metallic structures are particularly appealing as they enhance the stiffness compatibility with the host tissue. The mechanical properties of the porous material are critically affected by microstructural features, such as the pore shape, the distribution of porosity, and the level of porosity. In this study, mechanical properties of porous commercially pure titanium structures with various porosity levels were investigated through a combination of experiments and finite element modelling. Finite element simulations were conducted on representative volume elements of the microstructure to assess the role of pore parameters on the effective mechanical properties. Modelling results indicated that the shape of the pore, in addition to porosity level, play a significant role on the effective behaviour. Finite element simulations provide reasonably accurate prediction of the effective Young's modulus, with errors as low as 0.9% for porosity of 35%. It was observed that the large spread in yield strength produced by the simulations was most likely due to the random pore distribution in the network, which may lead to a high probability of plastic strain initiation within the thin walls of the porous network.
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