Polymer Physics of Materials Replacement

INVITED · MAR-N56 · ID: 2763001

Presentations

  • Innovating through Medical Device Material Obsolescence

    ORAL · Invited

    Publication: Long, et al., (in review) End of Life Biocompatibility Assessment for Chronically implanted Cardiac Leads J. Biomed. Mater. Res. A
    Chaffin et al. Macromolecules 2012, 45, 22, 9110-9120
    Chaffin et al. Macromolecules 2014, 47 (15): 5220-5226
    Chaffin, ACS Macro Letters. 2020 9. 1793-1798
    Ibrahim et al. Heart Rhythm. 2024 21(8):1334-1341

    Presenters

    • Kimberly Chaffin

      Medtronic

    Authors

    • Kimberly Chaffin

      Medtronic

    View abstract →

  • Accelerating a Transition of the Global Fossil Fuel Industry Toward a Sustainable Built Environment

    ORAL · Invited

    Publication: Li, Zhiye and Lepech, Michael, Quantifying Aging and Damage Uncertainties from Climate Change in the Urban Environment Based on Multiscale Modeling of a Gfrp Civil Infrastructure System: https://ssrn.com/abstract=4917012

    Li, Z., Bosse, A. W., & Lepech, M. D. (2022). Net irreversible synergistic effects of environmental deterioration on fatigue and flexure properties of fiber reinforcement composite: A homogenization based model. Composites Part B: Engineering, 246, 110234.

    Li, Z., Furmanski, J. and Lepech, M.D., 2021. Micromechanics modeling and homogenization of glass fiber reinforced polymer composites subject to synergistic deterioration. Composites Science and Technology, 203, 108629.

    Li, Z., Lepech, M.D. and Furmanski, J., 2021. Development of a Multiphysics model of synergistic effects between environmental exposure and damage in woven glass fiber reinforced polymeric composites. Composite Structures, 258, 113230.

    Presenters

    • Michael Lepech

      Stanford

    Authors

    • Michael Lepech

      Stanford

    View abstract →