PBX Behaviors Accounting for Crystal/Binder Interface Debonding and Binder Viscoelasticity Henry Tan...
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PBX Behaviors Accounting for Crystal/Binder Interface Debonding and Binder Viscoelasticity Henry Tan School of Mechanical, Aerospace and Civil Engineering The University of Manchester Collaborators: C. Liu (Los Alamos National Laboratory) P.H. Geubelle (NASA Illinois Space Consortium, UIUC) Y. Huang (Northwestern University) eting: The High Rate Mechanical Properties of Energetic Materials, their Binders or Si
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Transcript of PBX Behaviors Accounting for Crystal/Binder Interface Debonding and Binder Viscoelasticity Henry Tan...
PBX Behaviors Accounting for Crystal/Binder Interface Debonding
and Binder Viscoelasticity
Henry TanSchool of Mechanical, Aerospace and Civil Engineering
The University of Manchester
Collaborators:
C. Liu (Los Alamos National Laboratory)P.H. Geubelle (NASA Illinois Space Consortium, UIUC)
Y. Huang (Northwestern University)
DYMAT Meeting: The High Rate Mechanical Properties of Energetic Materials, their Binders or Simulants
PBX 9501
Skidmore et al., 1997. Los Alamos National Lab
coarse particleaverage radius: 125m
fine particleaverage radius: 4m
• Large particle volume fraction• Bimodal size distribution of energetic crystals• High specific surface of crystal/binder interfaces
Cracking under Quasi-Static Loading
Rae et al. 2002. Cavendish Laboratory, Cambridge
crack
HMX crystals
• Cracks propagate mainly through the debonding of interfaces
Objectives
1. To determine the interface cohesive law for plastic bonded energetic materials
2. To establish a constitutive model for plastic bonded composite materials that accounts for• nonlinear interface debonding• binder viscoelasticity
To study the effects of interface debonding and binder viscoelasticity on behaviours of energetic composite materials
