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Design and Manufacture of Bionic Porous Titanium Alloy Spinal Implant Based on Selective Laser Melting(SLM) 被引量:2

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摘要 In order to meet the clinical requirements of spine surgery,this paper proposed the exploratory research of computer-aided design and selective laser melting(SLM)fabrication of a bionic porous titanium spine implant.The structural design of the spinal implant is based on CT scanning data to ensure correct matching,and the mechanical properties of the implant are verified by simulation analysis and laser selective melting experiment.The surface roughness of the spinal implant manufactured by SLM without post-processing is Ra 15μm,and the implant is precisely jointed with the photosensitive resin model of the upper and lower spine.The surface micro-hardness of the implant is HV 373,tensile strengthσ_(b)=1238.7 MPa,yield strengthσ_(0.2)=1043.9 MPa,the elongation is 6.43%,and the compressive strength of porous structure under 84.60%porosity is 184.09 MPa,which can meet the requirements of the reconstruction of stable spines.Compared with the traditional implant and intervertebral fusion cage,the bionic porous spinal implant has the advantages of accurate fit,porous bionic structure and recovery of patients,and the ion release experiment proved that implants manufactured by SLM are more suitable for clinical application after certain treatments.The elastic modulus of the sample is improved after heat treatment,mainly because the microstructure of the sample changes fromα’phase toα+βdual-phase after heat treatment.In addition,the design of high-quality bionic porous spinal implants still needs to be optimized for the actual needs of doctors.
出处 《Computer Modeling in Engineering & Sciences》 SCIE EI 2020年第9期1099-1117,共19页 工程与科学中的计算机建模(英文)
基金 The work presented in this paper was fully supported by the following projects:National Natural Science Foundation of China(51775196) Guangdong Province Science and Technology Project(2017B090912003) High-level Personnel Special Support Plan of Guangdong Province(2016TQ03X289) The Fundamental Research Funds for the Central Universities(Project No.2018ZD30) Guangdong Province Science and Technology Project(2017B090911014) Guangzhou Science and Technology Project(201704030097)。
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