Elahe Javadi
Education
- Ph.D. in Mechanical Engineering (2022), Northeastern University
- M.Sc. in Aerospace Engineering (2016), Sharif University of Technology
- B.Sc. in Aerospace Engineering (2014), K. N. Toosi University of Technology
As a seasoned Modeling and Simulation Consultant with Dassault Systemes, my expertise is rooted in a strong academic foundation, underscored by a PhD from Northeastern University. My doctoral research delved into blood rheology and its applications in medical simulations, laying the groundwork for my current role where I leverage advanced simulation to solve complex problems and drive efficiency for clients. This synergy of academic excellence and practical consultancy defines my professional journey and underscores the robust analytical skills I offer in the field.
Publications
Characterizing blood hysteresis via tensorial thixo-elasto-viscoplastic modeling
Andre Pincot, F. John Burpo, Elahe Javadi, Safa Jamali, Sean Farrington, Matthew J. Armstrong
Physics of Fluids · 2023
A fully physiologically-informed time- and rate-dependent hemorheological constitutive model
Elahe Javadi, Matthew J. Armstrong, Safa Jamali
Journal of Rheology · 2023
Circulating cell clusters aggravate the hemorheological abnormalities in COVID-19
Elahe Javadi, He Li, Ander Dorken Gallastegi, Galit H. Frydman, Safa Jamali, George Em Karniadakis
Biophysical Journal · 2022
Elahe Javadi,
Journal of Clinical Images and Medical Case Reports · 2022
Thixotropy and rheological hysteresis in blood flow
Elahe Javadi, Safa Jamali
The Journal of Chemical Physics · 2022
In silico biophysics and hemorheology of blood hyperviscosity syndrome
Elahe Javadi, Yixiang Deng, George Em Karniadakis, Safa Jamali
Biophysical Journal · 2021
Alireza Yazdani, Yixiang Deng, He Li, Elahe Javadi, Zhen Li, Safa Jamali, Chensen Lin, Jay D. Humphrey, Christos S. Mantzoros, George Em Karniadakis
Journal of The Royal Society Interface · 2021
Hemorheology: the critical role of flow type in blood viscosity measurements
Elahe Javadi, Safa Jamali
Soft Matter · 2021