Materials & Design | |
Anisotropy characteristics of microstructures for bone substitutes and porous implants with application of additive manufacturing in orthopaedic | |
Enchun Dong1  Shuangpeng Dong2  Dichen Li2  Jianfeng Kang2  Chen Zhang3  Ling Wang3  | |
[1] Jihua Laboratory, Foshan, Guangdong, China;State Key Laboratory for Manufacturing Systems Engineering, Xi'an Jiaotong University, Xi'an, Shaan Xi, China;Tianjin Medical Device Supervision and Testing Center, Tianjin, China; | |
关键词: Anisotropy characteristics; Porous structures; Additive manufacturing; Orthopaedic implant; | |
DOI : | |
来源: DOAJ |
【 摘 要 】
Porous bone substitutes built with additive manufacturing provide an opportunity for mimicking natural bone with complicated structures and excellent properties. However, the anisotropic discrepancy between microstructure and host bone is still unclear, and the mathematical relationship to design microstructures with controllable anisotropy has not been established. In the study, the numerical method for anisotropic evaluation of microstructures was developed from the generalized Hooke's law by the finite element method and programming. The 3D spatial distributions of effective modulus surfaces for four porous units were analyzed. The mapping relationship between anisotropy coefficient and geometric parameters was built. Finally, the comparison of anisotropy was investigated systematically. The numerical method can characterize the spatial distribution of modulus and anisotropy effectively. Modulus anisotropy can be controlled by adjusting geometric sizes and the response mechanism of modulus spatial distribution caused by the distribution of materials was revealed. The ratio of modulus extremum indicated that is necessary for the accurate evaluation of modulus and the influence of anisotropy on the service performance. This study not only evaluate qualitatively and quantitatively the mechanical anisotropy between porous structures and host bone, but also will lay the foundation for the functional bionic design of 3D printing porous prosthesis.
【 授权许可】
Unknown