Session Index

Session A
  A1. Plenary Session I: Material Response to Shock/Dynamic Loading: Windows into Shock-Induced Processes in Materials
Session B
  B1. Inelastic Deformation, Fracture, and Spall I
  B2. Detonations and Shock-Induced Chemistry I
  B3. First-Principles and Molecular Dynamics Calculations I: Metals I
  B4. Experimental Developments I
  B5. Spectroscopy and Optical Studies I
Session C
  C1. Inelastic Deformation, Fracture, and Spall II
  C2. Detonations and Shock-Induced Chemistry II
  C3. First-Principles and Molecular Dynamics Calculations II: Phase Transitions
  C4. Experimental Developments II
  C5. Spectroscopy and Optical Studies II
Session D
  D2. Energetic Materials I
  D3. First-Principles and Molecular Dynamics Calculations III: Energetic Materials I
  D4. Geophysics and Planetary Science I: Vaporization and Ionization
  D5. Phase Transitions I
Session E
  E2. Energetic Materials II
  E3. First-Principles and Molecular Dynamics Calculations IV: Equations of State
  E4. Geophysics and Planetary Science II: Giant and Super-Earth Planets
  E5. Phase Transitions II
Session F
  F1. Poster Session (5:30 - 7:30pm)
Session G
  G1. Plenary Session II: New Frontiers at the Intersection of Shock Physics and Planetary Sciences
Session H
  H1. Inelastic Deformation, Fracture, and Spall III
  H2. Energetic Materials III
  H3. First-Principles and Molecular Dynamics Calculations V: Energetic Materials II
  H4. Geophysics and Planetary Science III: Impact Phenomena
  H5. Phase Transitions III
  H6. Particulate/Porous Materials I: Foams
Session J
  J1. Inelastic Deformation, Fracture, and Spall IV
  J2. Energetic Materials IV
  J3. First-Principles and Molecular Dynamics Calculations VI: Metals II
  J4. Geophysics and Planetary Science IV: Tom Ahrens Memorial
  J5. Biological Materials
  J6. Particulate/Porous Materials II: Mesoscale Effects
Session K
  K1. Plenary Session III: Metalized Heterogeneous Detonation and Dense Reactive Particle Flow
Session L
  L1. Inelastic Deformation, Fracture, and Spall V
  L2. Detonations and Shock-Induced Chemistry III
  L3. First-Principles and Molecular Dynamics Calculations VII: Multiscale Modeling
  L4. Post Shock Turbulence I
  L5. Spectroscopy and Optical Studies III
  L6. Ballistics I: Heterogeneous Media
Session M
  M1. Inelastic Deformation, Fracture, and Spall VI
  M2. Detonations and Shock-Induced Chemistry IV
  M3. First-Principles and Molecular Dynamics Calculations VIII: Metals III
  M4. Post Shock Turbulence II
  M5. High Energy Density Physics/Warm Dense Matter I
  M6. Ballistics II: Experiments and Phenomenology
Session P
  P1. Inelastic Deformation, Fracture, and Spall VII
  P2. Energetic Materials V
  P3. High Pressure Strength I
  P4. Post Shock Turbulence III
  P5. High Energy Density Physics/Warm Dense Matter II
  P6. Ballistics III: Strength and Damage Models
Session Q
  Q1. Inelastic Deformation, Fracture, and Spall VIII
  Q2. Energetic Materials VI
  Q3. High Pressure Strength II
  Q4. Physics and Chemistry at High Pressure: Static and Low Rate Studies
  Q5. High Energy Density Physics/Warm Dense Matter III
  Q6. Ballistics IV: Armors and Protection
Session R
  R1. Plenary Session IV: George E. Duvall Shock Compression Science Award Talk: The Role of Gibbs Function in the Solid-Solid Phase Transformations Under Nonhydrostatic Stress Conditions
Session S
  S1. Inelastic Deformation, Fracture, and Spall IX
  S2. Detonations and Shock-Induced Chemistry V
  S3. High Pressure Strength III
  S4. Experimental Developments III
  S5. Materials Science I
  S6. Equation of State I
Session T
  T1. Energetic Materials VII
  T2. Detonations and Shock-Induced Chemistry VI
  T3. High Pressure Strength IV
  T4. Experimental Developments IV
  T5. Materials Science II
  T6. Equation of State II
Session U
  U1. Energetic Materials VIII
  U2. Detonations and Shock-Induced Chemistry VII
  U3. First-Principles and Molecular Dynamics Calculations IX: Energetic Materials III
  U4. Experimental Developments V
  U5. Materials Science III
  U6. Equation of State III
Session V
  V1. Composites and Polymers I: Mechanics of PBXs
  V2. High Pressure Strength V
  V3. First-Principles and Molecular Dynamics Calculations X: Metals IV
  V4. Experimental Developments VI
  V5. Materials Science IV
  V6. Equation of State IV
Session X
  X1. Plenary Session V: Megaamps, Megagauss, and Megabars: Using the Sandia Z Machine to Perform Extreme Material Dynamics Experiments
Session Y
  Y1. High Pressure Strength VI
  Y2. Energetic Materials IX
  Y3. Particulate/Porous Materials III: Theoretical and Computational
  Y4. Experimental Developments VII
  Y5. Composites and Polymers II: Polymers
Session Z
  Z1. High Pressure Strength VII
  Z2. Energetic Materials X
  Z3. Particulate/Porous Materials IV: Experimental
  Z4. Equation of State V
  Z5. Composites and Polymers III: Composites

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