Study on the prediction and inverse prediction of detonation properties based on deep learning

起爆 爆炸物 过度拟合 人工神经网络 计算机科学 状态方程 机器学习 试验数据 人工智能 预测建模 卷积神经网络 反向 数学 热力学 化学 物理 几何学 有机化学 程序设计语言
作者
Zi-hang Yang,Jili Rong,Zitong Zhao
出处
期刊:Defence Technology [Elsevier BV]
卷期号:24: 18-30 被引量:17
标识
DOI:10.1016/j.dt.2022.11.011
摘要

The accurate and efficient prediction of explosive detonation properties has important engineering significance for weapon design. Traditional methods for predicting detonation performance include empirical formulas, equations of state, and quantum chemical calculation methods. In recent years, with the development of computer performance and deep learning methods, researchers have begun to apply deep learning methods to the prediction of explosive detonation performance. The deep learning method has the advantage of simple and rapid prediction of explosive detonation properties. However, some problems remain in the study of detonation properties based on deep learning. For example, there are few studies on the prediction of mixed explosives, on the prediction of the parameters of the equation of state of explosives, and on the application of explosive properties to predict the formulation of explosives. Based on an artificial neural network model and a one-dimensional convolutional neural network model, three improved deep learning models were established in this work with the aim of solving these problems. The training data for these models, called the detonation parameters prediction model, JWL equation of state (EOS) prediction model, and inverse prediction model, was obtained through the KHT thermochemical code. After training, the model was tested for overfitting using the validation-set test. Through the model-accuracy test, the prediction accuracy of the model for real explosive formulations was tested by comparing the predicted value with the reference value. The results show that the model errors were within 10% and 3% for the prediction of detonation pressure and detonation velocity, respectively. The accuracy refers to the prediction of tested explosive formulations which consist of TNT, RDX and HMX. For the prediction of the equation of state for explosives, the correlation coefficient between the prediction and the reference curves was above 0.99. For the prediction of the inverse prediction model, the prediction error of the explosive equation was within 9%. This indicates that the models have utility in engineering.
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