摘要
应用解剖学建模技术对钛合金/多孔生物陶瓷复合胫骨人工半关节假体进行了个体匹配性设计,通过有限元技术对所构建的复合型人工关节进行结构优化,然后利用快速成型技术制造最优模型的树脂模具,并分别通过离心铸造和粉末烧结技术来实现复合型胫骨人工半关节假体的定制化制造.研究结果显示,提出的结构优化设计方法在保证假体个体匹配性和机械强度的条件下,使钛合金型假体的体积减少了51.7%,使复合型假体能够保持最大的生物活性,而以快速成型技术为基础的定制化制造方法可实现假体的快速且精确制造.临床应用表明,通过该方法设计制造的复合型胫骨人工半关节假体可恢复受损关节的功能,因此具有广泛的医学应用前景.
Composed of titanium alloy and porous bioceramics, individual design was conducted for tibial hemi-knee joint prosthesis with anatomical modeling technique, and finite element method (FEM) was adopted to optimize the joint structure. The optimal resin molds were taken shape in a rapid prototyping (RP) process and the composite tibial hemi-knee joint was custom-fabricated via centrifugal casting and powder sintering techniques. The results demonstrate that the presented optimal method enables to decrease the volume of titanium-alloy prosthesis by 51.7% and the optimum model remains the maximum bioactivity under the individual matching and mechanical strength conditions to confirm the efficiency and precision of RP-based custom fabrication. The practical example verifies the remarkable ability of this artificial prosthesis to restore damaged joint and exhibits a wider clinical foreground.
出处
《西安交通大学学报》
EI
CAS
CSCD
北大核心
2006年第5期563-567,共5页
Journal of Xi'an Jiaotong University
基金
国家自然科学基金资助项目(50235020)
教育部优秀青年教师奖励基金资助项目
关键词
优化设计
复合型胫骨半关节
生物活性
个体匹配性
快速成型
optimal design
composite tibial hemi-knee joint
bioactivity
individual matching
rapid prototyping
