116 results on '"Udaykumar, H. S."'
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2. Pressure‐assisted binder jetting for additive manufacturing of mock energetic composites
3. Physically evocative meso-informed sub-grid source term for energy localization in shocked heterogeneous energetic materials
4. Defect generation in polymer-bonded explosives exposed to internal gas injection
5. A Levelset-Based Sharp-Interface Modified Ghost Fluid Method for High-Speed Multiphase Flows and Multi-Material Hypervelocity Impact
6. PARC: Physics-aware recurrent convolutional neural networks to assimilate meso scale reactive mechanics of energetic materials
7. Multi-scale Simulation of the Interaction of a Shock Wave and a Cloud of Particles
8. Artificial Intelligence Approaches for Energetic Materials by Design: State of the Art, Challenges, and Future Directions
9. A physics‐aware deep learning model for energy localization in multiscale shock‐to‐detonation simulations of heterogeneous energetic materials
10. An Eulerian crystal plasticity framework for modeling large anisotropic deformations in energetic materials under shocks
11. Physically Evocative Meso-Informed Burn Model: Topology of Evolving Hotspot Fields
12. Mechanisms of shock-induced initiation at micro-scale defects in energetic crystal-binder systems
13. Multi-scale modeling of shock initiation of a pressed energetic material. II. Effect of void–void interactions on energy localization
14. Synthesizing controlled microstructures of porous media using generative adversarial networks and reinforcement learning
15. Hot spot ignition and growth from tandem micro-scale simulations and experiments on plastic-bonded explosives
16. Head‐To‐Head Comparison of Molecular and Continuum Simulations of Shock‐Induced Collapse of an Elongated Pore in an Energetic Molecular Crystal
17. Can heat‐pumps provide routes to decarbonization of building thermal control in the US Midwest?
18. Numerical investigation of a plunging flat-plate airfoil using a diffuse interface immersed boundary method
19. Multi-scale modeling of shock initiation of a pressed energetic material I: The effect of void shapes on energy localization
20. Meso-scale simulation of energetic materials. II. Establishing structure–property linkages using synthetic microstructures
21. Meso-scale simulation of energetic materials. I. A method for generating synthetic microstructures using deep feature representations
22. Detonation Wave-Induced Breakup and Combustion of RP-2 Fuel Droplets
23. Shock-induced combustion of aluminum particle clusters investigated with resolved sharp-interface two-dimensional simulations
24. Molecular dynamics-guided material model for the simulation of shock-induced pore collapse in β-octahydro-1,3,5,7-tetranitro-1,3,5,7-tetrazocine (β-HMX)
25. Unified Approach for Meso-Informed Burn Models in Shocked Energetic Materials
26. Macro-scale sensitivity through meso-scale hotspot dynamics in porous energetic materials: Comparing the shock response of 1,3,5-triamino-2,4,6-trinitrobenzene (TATB) and 1,3,5,7-tetranitro-1,3,5,7-tetrazoctane (HMX)
27. Structure–property–performance linkages for heterogenous energetic materials through multi-scale modeling
28. Deep learning for synthetic microstructure generation in a materials-by-design framework for heterogeneous energetic materials
29. Structure–property linkage in shocked multi-material flows using a level-set-based Eulerian image-to-computation framework
30. Confidence-Based Uncertainty Quantification and Model Validation for Simulations of High-Speed Impact Problems
31. Tandem Molecular Dynamics and Continuum Studies of Shock‐Induced Pore Collapse in TATB
32. Multiscale Theory, Simulation, and Experiment in Energetic Materials: Getting Right Answers for Correct Reasons
33. Modeling mesoscale energy localization in shocked HMX, Part II: training machine-learned surrogate models for void shape and void–void interaction effects
34. Effects of parametric uncertainty on multi-scale model predictions of shock response of a pressed energetic material
35. Void collapse generated meso-scale energy localization in shocked energetic materials: Non-dimensional parameters, regimes, and criticality of hotspots
36. Modeling mesoscale energy localization in shocked HMX, part I: machine-learned surrogate models for the effects of loading and void sizes
37. Influence of bulk and interfacial properties on shock compression of metal powders. I. Interaction of a pair of particles
38. Influence of bulk and interfacial properties on shock compression of metal powders. II. Compaction of clusters of particles
39. Metamodels for Interphase Heat Transfer from Mesoscale Simulations of Shock–Cylinder Interactions
40. Multi-scale Modeling and Simulation of Compressible Multimaterial Flows
41. Multi-scale shock-to-detonation simulation of pressed energetic material: A meso-informed ignition and growth model
42. Synergy between Diastolic Mitral Valve Function and Left Ventricular Flow Aids in Valve Closure and Blood Transport during Systole
43. Three-dimensional simulations of void collapse in energetic materials
44. Role of pseudo-turbulent stresses in shocked particle clouds and construction of surrogate models for closure
45. A Particle-Level-Set Based Sharp Interface Cartesian Grid Method for Impact, Penetration, and Void Collapse
46. A Simplified Model for the Normal Collision of Arbitrary Shape Particles in a Viscous Flow
47. A sharp interface Cartesian grid method for viscous simulation of shocked particle-laden flows
48. Collapse of elongated voids in porous energetic materials: Effects of void orientation and aspect ratio on initiation
49. High-resolution simulations of cylindrical void collapse in energetic materials: Effect of primary and secondary collapse on initiation thresholds
50. SPARSE—A subgrid particle averaged Reynolds stress equivalent model: testing with a priori closure
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