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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<br>Chaffin et al. Macromolecules 2012, 45, 22, 9110-9120<br>Chaffin et al. Macromolecules 2014, 47 (15): 5220-5226<br>Chaffin, ACS Macro Letters. 2020 9. 1793-1798<br>Ibrahim et al. Heart Rhythm. 2024 21(8):1334-1341

    Presenters

    • Kimberly Chaffin

      Medtronic

    Authors

    • Kimberly Chaffin

      Medtronic

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  • 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 <br><br>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.<br><br>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.<br><br>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

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