摘要
为了深入研究踝足骨折的损伤机制、临床分型及诊疗方案,研制了一套踝足部骨折造模机实验装置。建立了液压执行系统AMESim虚拟仿真模型,并对木头、塑料假肢和动物足骨标本进行压力测试。结果表明,针对动物足骨标本的冲击载荷达到了13.73 kN,满足实验技术要求。该实验装置为骨科、创伤和康复等专业的临床医学人才以及新工科医工结合背景下的创新型医疗装备研发人才提供了实验基础。
In order to deeply study the injury mechanism,clinical typing and diagnosis and treatment plan of ankle-foot fracture,an experimental device for ankle fracture modeling making was developed.The AMESim virtual simulation model of the hydraulic actuating system was established,and the experimental device test was carried out for wood,plastic prosthesis and animal foot specimens.The results show that the impact loading force for the animal foot bone specimen reaches 13.73 kN,which meets the technical requirements.It provides an experimental basis for clinical medical talents specialized in orthopedics,trauma and rehabilitation,as well as innovative medical equipment research and development talents in the context of the combination of medicine and industry in the new engineering discipline.
作者
孙波
杨航
刘传健
王旭
朱钧
SUN Bo;YANG Hang;LIU Chuanjian;WANG Xu;ZHU Jun(School of Mechanical Engineering,Tongji University,Shanghai 201804,China;Huashan Hospital,Fudan University,Shanghai 200040,China;Yiwu Research Institute,Fudan University,Yiwu 322000,Zhejiang,China)
出处
《实验室研究与探索》
CAS
北大核心
2024年第12期34-38,共5页
Research and Exploration In Laboratory
基金
国家自然科学基金项目(82172378)
同济大学实验教学改革专项基金项目(1000104165)。
关键词
踝足骨折
踝关节
造模机
实验装置
ankle fractures
ankle
modeling machine
experimental device
