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Progress

Progress. 2010/3/11 報告學生:陳謀法 指導教授:楊世偉. Pre-works before simulation. Calculate the loading of the different cases Predict to the implant length by the small finite element method. How to decide to the loading of the different transfemoral amputees?. Mean amputee data High:178cm

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Progress

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  1. Progress 2010/3/11 報告學生:陳謀法 指導教授:楊世偉

  2. Pre-works before simulation • Calculate the loading of the different cases • Predict to the implant length by the small finite element method

  3. How to decide to the loading of the different transfemoral amputees?

  4. Mean amputee data High:178cm Total mass:84.3kg Residual limb length:20cm Data analysis Step1:Calibration Step2:Selection of relevant segment of data to analyze Step3:Determination of gait events Parameters Patterns of curves Local extrema Impulse values W.C.C. Lee : Clinical Biomechanics 22 (2007) 665–673

  5. Last stance phase Short moment arm Early stance phase W.C.C. Lee : Clinical Biomechanics 30 (2008) 825–833

  6. 13% gait cycle FAP = 15%BW FML = -15%BW FL = 120%BW 13% gait cycle MAP = 30 + ∆RL*FML MML = -18 + ∆ RL*FAP ML = 5 13%

  7. Hip reaction force • Standing:15%BW • Squatting:100%BW • Standing by single leg:250%BW • Laying:150%BW • Normal walking:700%BW • Fast running:1000%BW • Mass 70kg corresponds to 4.3 times body weight for joint reaction force and abduction M.E. Taylor : Med. Eng. Phys. (1996) Vol. 18. No. 2, pp. 122-133

  8. AP-view M.E. Taylor : Med. Eng. Phys. (1996) Vol. 18. No. 2, pp. 122-133

  9. Simulation • Finite element analysis • Model(part and material) • Interaction(constrain) • Load(boundary condition)

  10. Data analysis • Femur • Micro-brittle • Maximum principle stress • Maximum principle strain • Weibull modulus • Implant • Ductile • Principles of fracture mechanics • Von-Mises stress

  11. Principles of implant design • Shape (triangle thread implant) • Single thread • Multiple thread • Hi-Lo type double thread http://www.cpami.gov.tw/

  12. Principles of implant design • Diameter • Pilot hole diameter (16mm) • Core diameter (16/0.9=18mm) Cortical bone has an average apparent density of approximately 1.9 g/cm3 Reilly, D.T. and Burstein, A. H. J. Biomechanics , 8, 393-405, 1975

  13. Principles of implant design • Triangle thread diameter • σt= Tensile Strength (kg/cm2) • W= Axial load (kg) • d1= Core diameter (cm) 大西清 ,JIS standard drawn method,1955

  14. Principles of implant design • Thread number • q= Contact pressure (kgf/cm2) • n= Pitch number • W= Axial load (kg) • d= Major diameter (cm) [range:20.38~21.36mm] • d1= Core diameter (cm)[18mm] 大西清 ,JIS standard drawn method,1955

  15. Principles of implant design • Allowable drawing force • Pw= Allowable drawing force(kgf/cm) • ρ= Bone density • d= Major diameter (cm) http://www.cpami.gov.tw/

  16. Principles of implant design • Allowable shear force • Pa= Allowable shear force (kgf) • ρ= Bone density • d= Major diameter (cm) • l= Implant length (cm) http://www.cpami.gov.tw/

  17. Conclusion • Predict the loading of the different cases by their body weight • Follow the mechanical principal to decide to the implant • Shape • Single thread • Multiple thread • Hi-Lo type double thread • Diameter • Pilot hole diameter (16mm) • Core diameter (18mm) • Major diameter (21mm) • Pitch number (n>1) • Length (l/d=4~10) • Pitch • Coarse thread(2.5mm) • Fine thread (1mm、1.5mm、2mm) • Angle • Coarse thread(60o) • Fine thread(550、58o)

  18. Futurework • CreatetheabovementionedimplantbySoildwork • Makethecriteriaandsummaryoffracturetheory • RunthefiniteelementanalysisbyAbaqus

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