Debabrata Auddya, Ph.D.

Debabrata Auddya, Ph.D.

Computational Biomechanics, Mathematical Modeling, Finite Element Method

Talks and presentations

  1. Debabrata Auddya, Harrah R. Newman, John M. Peloquin, Dawn M. Elliott. Parametric sensitivity analysis of disc mechanics using a nonlinear biphasic and fiber-reinforced finite element analysis (Poster), ISSLS 2025, Atlanta, GA
  2. Debabrata Auddya, Harrah R. Newman, John M. Peloquin, Dawn M. Elliott. Parametric sensitivity analysis of disc mechanics using a nonlinear biphasic and fiber-reinforced finite element analysis, DCMR/CBER Symposium 2025, University of Delaware, Newark, DE
  3. Debabrata Auddya, Shiva Rudraraju. A mechano-chemical continuum framework for modeling axonal deformation and neuronal-ECM molecular pathways underlying traumatic brain injury (Poster), PANTHER Conference 2023, Sept 23-25, Madison, WI
  4. Debabrata Auddya, Shiva Rudraraju. A mechano-chemical continuum framework for modeling axonal deformation and neuronal-ECM molecular pathways underlying traumatic brain injury, SES 2023, Oct 8-11, Minneapolis, MN
  5. Session Chair, Cell Mechanics and Mechanobiology, USNCCM17 2023, July 23-27, Albuquerque, NM
  6. Debabrata Auddya, Shiva Rudraraju. A mechano-chemical continuum framework for modeling axonal deformation and neuronal-ECM molecular pathways underlying traumatic brain injury, USNCCM17 2023, July 23-27, Albuquerque, NM
  7. Session Chair, Modeling of Complex Fluids and Applications, SES 2022, Oct 15-19, College Station, TX
  8. Debabrata Auddya, Rahul Gulati, Shiva Rudraraju. Mechanics and microstructure underlying axonal deformation of neurons and neuronal injury (Invited Talk), SES 2022, Oct 15-19, College Station, TX
  9. Debabrata Auddya, Rahul Gulati, Shiva Rudraraju. Mechanics and microstructure underlying axonal deformation of neurons and neuronal injury (Poster), Panther Conference 2022, Sept 23-25, Madison, WI
  10. Debabrata Auddya, Rahul Gulati, Shiva Rudraraju. Mechanics and microstructure underlying axonal deformation of neurons and neuronal injury, USNCTAM19 2022, June 19-25, Austin, TX
  11. Debabrata Auddya,Xiaoxuan Zhang, Rahul Gulati, Ritvik Vasan, Krishna Garikipati, Padmini Rangamani, and Shiva Rudraraju. Biomembranes undergo complex, non-axisymmetric deformations governed by Kirchhoff-Love kinematics and revealed by a three dimensional computational framework. Graduate Engineering Mechanics Seminar(GEMS) 2021, Oct 20, Madison, WI
  12. Debabrata Auddya,Xiaoxuan Zhang, Rahul Gulati, Ritvik Vasan, Krishna Garikipati, Padmini Rangamani, and Shiva Rudraraju. Biomembranes undergo complex, non-axisymmetric deformations governed by Kirchhoff-Love kinematics and revealed by a three dimensional computational framework. USNCCM16 2021 (Virtual), July 28-31, Chicago, IL
  13. Debabrata Auddya, Jiahao Jiang, Krishna Garikipati, Shiva Rudraraju, 2019. A diffuse interface framework for modelling the evolution of multi-cell aggregates as a soft packing problem driven by the growth and division of cells, USNCCM15 2019, July 28-31, Austin, TX
  14. Debabrata Auddya, Jiahao Jiang, Krishna Garikipati, Shiva Rudraraju, 2019. A diffuse interface framework for modelling the evolution of multi-cell aggregates as a soft packing problem driven by the growth and division of cells, Midwest Mechanics Symposium 2019, March 9-10, Madison, WI
  15. Bradley J. Roth, Debabrata Auddya. A mathematical model of mechanotransduction for morphogenesis, Mechanics in Morphogenesis 2018 ,Princeton Center for Theoretical Science - Princeton University, February 21-23, Princeton, NJ