Synthesis, structure, and properties of carbon/carbon composites artificial rib for chest wall reconstruction

Author:

Tan Zhoujian,Zhang Xiang,Ruan Jianming,Liao Jiqiao,Yu Fenglei,Xia Lihong,Wang Bin,Liang Chaoping

Abstract

AbstractIn this work, braided carbon fiber reinforced carbon matrix composites (3D-C/C composites) are prepared by chemical vapor infiltration process. Their composite structure, mechanical properties, biocompatibility, and in vivo experiments are investigated and compared with those of traditional 2.5D-C/C composites and titanium alloys TC4. The results show that 3D-C/C composites are composed of reinforced braided carbon fiber bundles and pyrolytic carbon matrix and provide 51% open pores with a size larger than 100 μm for tissue adhesion and growth. The Young’s modulus of 3D-C/C composites is about 5 GPa, much smaller than those of 2.5D-C/C composites and TC4, while close to the autogenous bone. 3D-C/C composites have a higher tensile strength (167 MPa) and larger elongation (5.0%) than 2.5D-C/C composites (81 MPa and 0.7%), and do not show obvious degradation after 1 × 106 cyclic tensile loading. The 3D-C/C composites display good biocompatibility and have almost no artifacts on CT imaging. The in vivo experiment reveals that 3D-C/C composites artificial ribs implanted in dogs do not show displacement or fracture in 1 year, and there are no obvious proliferation and inflammation in the soft tissues around 3D-C/C composites implant. Our findings demonstrate that 3D-C/C composites are suitable for chest wall reconstruction and present great potentials in artificial bones.

Funder

the self-topic fund of State key laboratory for Powder Metallurgy

the key R&D Plan of Hunan Provincial

the Natural Science Foundation for Young Scientists of Hunan Province

the China Postdoctoral Science Foundation

the Xiang development & Reform Investment Program

Publisher

Springer Science and Business Media LLC

Subject

Multidisciplinary

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