Biomechanical Analysis and Structural Optimization of 3D-Printed Polyether Ether Ketone(PEEK)Static Wrist Orthosis
10.16156/j.1004-7220.2025.02.018
- VernacularTitle:3D打印聚醚醚酮固定型手腕矫形器的生物力学分析及结构优化
- Author:
Ziyan QIU
1
;
Lingfeng ZHU
;
Heran ZHANG
;
Wencheng YIN
;
Lei TANG
;
Dongming ZOU
;
Binling CHEN
;
Ling WANG
Author Information
1. 西安交通大学 机械工程学院,精密微纳制造技术全国重点实验室,西安 710054;西安交通大学 国家药监局医用增材制造器械研究与评价重点实验室,西安 710054;西安交通大学 国家医学攻关产教融合创新平台(中心),西安 710054
- Publication Type:Journal Article
- Keywords:
wrist orthosis;
personalized design;
biomechanical analysis;
finite element analysis;
topological optimization
- From:
Journal of Medical Biomechanics
2025;40(2):378-386
- CountryChina
- Language:Chinese
-
Abstract:
Objective In response to the clinical needs for personalized wrist orthoses,a topological optimization design method was proposed to achieve an integrated macro-and micro-structural optimization of a personalized,lightweight,and comfortable wrist orthosis.Methods A composite biomechanical finite element model of the wrist orthosis and upper limb was established to quantify the effects of the orthosis geometry on its fixation performance and comfort.A multi-condition topological optimization and microstructure design approach was employed to optimize the non-load-bearing areas of the orthosis.The orthosis was manufactured using three-dimensional(3D)-printed polyether ether ketone(PEEK),and the feasibility of the design was validated.Results While maintaining mechanical strength,the weight of the 3D-printed PEEK orthosis was reduced by 28%compared to the traditional orthoses.Both the pressure at the skin contact interface and the results of a subjective questionnaire indicated that test subjects experienced a high level of comfort wearing the orthosis.Conclusions The orthosis design achieved personalization,lightweight structure,and high comfort while ensuring mechanical strength and fixation performance.
