机械制造与自动化
機械製造與自動化
궤계제조여자동화
Machine Building & Automation
2015年
5期
89-92
,共4页
生物力学%有限元分析%鞋垫%舒适性
生物力學%有限元分析%鞋墊%舒適性
생물역학%유한원분석%혜점%서괄성
biomechanics%finite element analysis%arch support insert%foot comfort
探讨建立足部三维有限元模型的方法,并建立一系列腰窝高度的鞋垫模型,应用模型模拟分析得出足底压力分布及骨骼受力情况,找出穿着最舒适时的腰窝高度。基于CT数据,建立包括骨骼,软骨,软组织,韧带和足底腱膜,考虑材料非线性的足部模型。截取腰窝曲面,建立5个腰窝高度的鞋垫模型。利用完整的有限元模型对行走中立期进行了静态模拟。有限元分析结果表明,满腰窝高度的鞋垫会对第二跖骨造成压迫,降低舒适感;综合舒适度函数可得出1/2-3/4腰窝高度的鞋垫具有最佳的舒适性,与实验得出的结论相同。提出从足舒适度角度设计鞋垫的腰窝高度时应综合考虑足底压力分布和跖骨应力,为设计鞋垫和研究足部各种临床状况提供了参考。
探討建立足部三維有限元模型的方法,併建立一繫列腰窩高度的鞋墊模型,應用模型模擬分析得齣足底壓力分佈及骨骼受力情況,找齣穿著最舒適時的腰窩高度。基于CT數據,建立包括骨骼,軟骨,軟組織,韌帶和足底腱膜,攷慮材料非線性的足部模型。截取腰窩麯麵,建立5箇腰窩高度的鞋墊模型。利用完整的有限元模型對行走中立期進行瞭靜態模擬。有限元分析結果錶明,滿腰窩高度的鞋墊會對第二蹠骨造成壓迫,降低舒適感;綜閤舒適度函數可得齣1/2-3/4腰窩高度的鞋墊具有最佳的舒適性,與實驗得齣的結論相同。提齣從足舒適度角度設計鞋墊的腰窩高度時應綜閤攷慮足底壓力分佈和蹠骨應力,為設計鞋墊和研究足部各種臨床狀況提供瞭參攷。
탐토건립족부삼유유한원모형적방법,병건립일계렬요와고도적혜점모형,응용모형모의분석득출족저압력분포급골격수력정황,조출천착최서괄시적요와고도。기우CT수거,건립포괄골격,연골,연조직,인대화족저건막,고필재료비선성적족부모형。절취요와곡면,건립5개요와고도적혜점모형。이용완정적유한원모형대행주중립기진행료정태모의。유한원분석결과표명,만요와고도적혜점회대제이척골조성압박,강저서괄감;종합서괄도함수가득출1/2-3/4요와고도적혜점구유최가적서괄성,여실험득출적결론상동。제출종족서괄도각도설계혜점적요와고도시응종합고필족저압력분포화척골응력,위설계혜점화연구족부각충림상상황제공료삼고。
To investigate the best arch support insert height, a three-dimensional ( 3D) parametric comprehensive finite element ( FE) model of foot is established and the relationship between the plantar pressure and foot bone stress and the arch support insert is studied. Based on 3D CT scanned data of the right foot of a healthy volunteer, an accurate foot geometric model, including bones, cartilages, soft tissue, ligaments and plantar fascia, and 5 arch support inserts geometric models of different height overlald with the curved arch surface are established. The overal foot-insert FE model is established by combining the foot and arch support insert model, and the static finite element analysis of gait mid-stance phase is performed by considering the material nonlinearity. The para-metric FE analysis results show that the 2nd metatarsal is squeezed and the foot comfort is decreased with ful arch support insert, and the most favorable insert height is between 1/2-3/4 arch height from the plantar pressure effect and metatarsal stress effect, which is the same to the experimental result. Both the plantar pressure distribution and metatarsal stress should be comprehensively considered, designing the shoe insert for foot comfort, it can provide a reference for footwear design and different clinical questions.