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Modeling meso-scale energy localization in shocked HMX, Part I: machine- learned surrogate model for effect of loading and void size

Authors :
Nassar, Anas
Rai, Nirmal K.
Sen, Oishik
Udaykumar, H. S.
Publication Year :
2018

Abstract

This work presents the procedure for constructing a machine learned surrogate model for hotspot ignition and growth rates in pressed HMX materials. A Bayesian Kriging algorithm is used to assimilate input data obtained from high-resolution meso-scale simulations. The surrogates are built by generating a sparse set of training data using reactive meso-scale simulations of void collapse by varying loading conditions and void sizes. Insights into the physics of void collapse and ignition and growth of hotspots are obtained. The criticality envelope for hotspots is obtained as the function {\Sigma}_cr=f(P_s,D_void ) where P_s is the imposed shock pressure and D_void is the void size. Criticality of hotspots is classified into the plastic collapse and hydrodynamic jetting regimes. The information obtained from the surrogate models for hotspot ignition and growth rates and the criticality envelope can be utilized in meso-informed Ignition and Growth (MES-IG) models to perform multi-scale simulations of pressed HMX materials.<br />Comment: 37 Pages, 19 Figures

Details

Database :
arXiv
Publication Type :
Report
Accession number :
edsarx.1810.04666
Document Type :
Working Paper
Full Text :
https://doi.org/10.1007/s00193-018-0874-5