Multiscale Study of Hypersonic Vehicles: From Turbulence to Ceramics

Source: https://www.nrl.navy.mil/Our-Work/Areas-of-Research/Computational-Physics-Fluid-Dynamics/
Source: https://www.nrl.navy.mil/Our-Work/Areas-of-Research/Computational-Physics-Fluid-Dynamics/

Presented: December 13, 2023 12:00 pm
Presented by: Dr. James Chen

Recent technology development for hypersonic vehicles has posed several challenges from a fluid and solid perspective. We will discuss both perspectives, including the intrinsic angular momentum coupling with linear momentum and a manufacturing-driven integrated computational materials engineering framework for ceramics-related materials at a wide range of temperatures.

This webinar will be divided into two parts and cover the following items:

Part I:  Turbulence

  • Morphing Continuum Theory (MCT)
  • MCT vs. Navier-Stokes Equations
  • MCT Example I:  Supersonic Compression Ramp
  • MCT Example II:  Transonic Turbulence
  • MCT Example III:  1D Shock Structure at Various Mach Numbers

Part II:  Ceramics

  • Integrated Computational Materials Engineering for Hypersonics
  • Four-way Thermomechanical Damage Model
  • Bayesian Statistics for Uncertainty Management
  • Artificial Neural Network for Material Design
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