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The design of Ti6Al4V Primitive surface structure with symmetrical gradient of pore size in biomimetic bone scaffold

Su Wang, Zhang'ao Shi, Linlin Liu, Xin Zhou, Luchuang Zhu, Yongqiang Hao

2020Materials & Design110 citationsDOIOpen Access PDF

Abstract

The living environment of bone cells is a complex curved one. And based on the modeling method of triply periodic minimal surfaces (TPMS) can be used to design a variety of complex surface structures, so it has been more and more widely studied and applied. In this paper, the main research object is the Primitive structure of TPMS. As an artificial bone scaffold structure, it must possess good mechanical properties, permeability, and is conducive to cell adhesion and proliferation. In this study, several groups of Ti6Al4V Primitive models are designed and fabricated by selective laser melting (SLM). The mechanical properties of scaffold are evaluated by mechanical compression test. The morphology of the scaffold model is characterized. The permeability of the scaffold was predicted and evaluated by computational fluid dynamics (CFD) analyses. Finally, the evaluation of the effects of Ti6A14V scaffold on cell growth is conducted by cytotoxicity test. The results show that the mechanical properties and permeability of the designed Primitive surface scaffold are pretty good as bone tissue replacement. Among them, the Psy scaffold with pore size and porosity varying along the axisymmetric gradient has significant research and application potential in the field of artificial bone scaffold.

Topics & Concepts

ScaffoldMaterials scienceSelective laser meltingPermeability (electromagnetism)PorosityTitanium alloySimulated body fluidBiomedical engineeringComposite materialNanotechnologyChemistryScanning electron microscopeMicrostructureEngineeringBiochemistryMembraneAlloyCellular and Composite StructuresAdditive Manufacturing and 3D Printing TechnologiesBone Tissue Engineering Materials