US EPA

7687147 

Journal Article 

Modeling of Cooling and Solidification of TNT based Cast High Explosive Charges 

Kumar, AS; Rao, VD; , 

2014 

Yes 

Defence Science Journal
ISSN: 0011-748X 

DEFENCE SCIENTIFIC INFORMATION DOCUMENTATION CENTRE 

DELHI 

64 

4 

339-343 

English 

10.14429/dsj.64.4673 

WOS:000340442300003 

Cast trinitrotoluene (TNT) based high explosive charges suffer from different defects such as cracks, voids, etc. One of the quality control measures is to cool the castings gradually, so that the entire charge solidifies without a large temperature gradient from core to the periphery of the cast charge. The fact that the solidification of high explosive casting starts from the periphery (cooler side) and travels towards the center enables us to predict the solidification profile of TNT based explosive castings. Growth of solidification thickness and cooling temperature profiles of TNT based cast high explosive charges are predicted as functions of time and space using unsteady state heat transfer principles, associated with heat balance at solid to liquid interface as a moving boundary of solidification. This will enable adoption of proper quality control during solidification of the molten TNT to eliminate inherent drawbacks of cast high explosive charges. The solidification profiles of TNT based cast charges under controlled and natural conditions are predicted and the model is validated against 145 mm diameter TNT cast charge which is found to be in broad agreement with experiments. 

Asymptotic growth; Heat balance; Liquid-solid interface; Solidification; Trinitrotoluene; Unsteady state heat conduction