369 |
Sam |
Evans |
|
Errors and uncertainties in the identification of material parameters using the inverse finite element method |
UK |
174 |
Mike |
Arun |
Anoop Chawla, Sudipto Mukherjee |
Estimating Dynamic Properties Of Under Impact Bending Using Inverse Finite Element Method |
India |
24 |
F. |
Martínez-Martínez |
Lago M.A., Rupérez M.J., Monserrat C., Pareja E., Cortés M., López R., Brugger S. |
A computational method to estimate the elastic parameters of biomechanical models for the in-vivo human liver |
Spain |
89 |
Gerhard |
Silber |
Christophe Then, Thomas. J. Vogl |
Biomechanics of Human Gluteal Tissue: In Vivo Characterization and Interaction Simulation |
Germany |
158 |
Malte |
Steiner |
Lutz Claes, Ulrich Simon, Anita Ignatius, Tim Wehner |
Calibration Of Model-Specific Input Parameters For Fracture Healing Simulation Using Optimization Processes |
Germany |
100 |
Victoria |
Toal |
Clayton Adam |
Is 3D Finite Element Analysis Of Nanoindentation Necessary To Investigate Postyield Mechanics Of Bone? |
Australia |
187 |
Ray |
Vanderby |
Sarah E. Kuehl, Mon-Ju Wu, Hirohito Kobayashi, Kenneth S. Lee, William A. Sethares |
An In Vivo Method To Quantify Biomechanical Compromise In Tendon |
USA |
129 |
Pasquale |
Vena |
Matteo Taffetani, Emanuele Bertarelli, Riccardo Gottardi, Roberto Raiteri |
Dynamic Spherical Nanoindentation Of Soft Hydrated Tissue: Experiments And Finite Element Modeling |
Italy |
128 |
Adam |
Wittek |
Adam Wittek, Guiyong Zhang, Grand Roman Joldes,
Karol Miller, Pierre-Yves Rohan, Xin Jin and King H. Yang |
Meshless Algorithm For Modelling Of Fragmentation In Soft Tissues |
Australia |
99 |
Naoto |
Yamamura |
J.L. Alves, Toshiaki Oda, Ryuta Kinugasa, Shu Takagi |
Significance of Fascia for Mechanical Behaviour of Skeletal Muscles - Numerical study using 3D models - |
Japan |