In this study, we provide estimates for hot-spot temperature
based on the grain surface heat flux variation within
compaction wave profiles. While we make several simplifications
here for expediency, we believe that the grain surface
heat flux q, defined by Eq. (10), can be used with more physically
motivated localization strategies to accurately predict
hot-spot temperatures in a computationally efficient manner.
The predicted evolution of grain surface heat flux is shown in
Fig. 4f. Though not evident in this figure due to improper axis