Soft-tissue material properties under large deformation: strain rate effect

@article{Hu2004SofttissueMP,
  title={Soft-tissue material properties under large deformation: strain rate effect},
  author={Tie Hu and J. P. Desai},
  journal={The 26th Annual International Conference of the IEEE Engineering in Medicine and Biology Society},
  year={2004},
  volume={1},
  pages={2758-2761}
}
  • Tie Hu, J.P. Desai
  • Published 2004 in
    The 26th Annual International Conference of the…
Biomechanical model of soft tissue derived from experimental measurements is critical for developing a reality-based model for minimally invasive surgical training and simulation. In our research, we have focused on developing a biomechanical model of the liver with the ultimate goal of using this model for local tool-tissue interaction tasks and providing feedback to the surgeon through a haptic display. We are interested in finding the local effective elastic modulus (LEM) of the liver tissue… CONTINUE READING