Toward a machine-guided approach to energetic material discovery

替代模型 计算机科学 机器学习 解算器 人工智能 爆炸物 过程(计算) 航程(航空) 数据挖掘 工程类 操作系统 程序设计语言 航空航天工程 化学 有机化学
作者
D.G. Walters,Nirmal Rai,Oishik Sen,W. Lee Perry
出处
期刊:Journal of Applied Physics [American Institute of Physics]
卷期号:131 (23) 被引量:6
标识
DOI:10.1063/5.0084973
摘要

In this article, we trained a machine learning (ML) model to connect microstructural details of an energetic material formulation to its performance for the purpose of guiding the discovery of new explosive formulations. Our hypothesis was that the algorithm would robustly learn the training data and produce an accurate surrogate model. Specifically, the algorithm learned the relationship between details of the void size distribution (VSD), initiating shock pressure, and the energetic material performance. We used realistic constraints on the VSD and a range of cases were ingested by a physically informed reactive flow model working within a hydrodynamic solver running on high-performance computing resources. The ML algorithm produced a surrogate model that accurately predicted known test points around the parameter space. In addition to the utility of the model and the process used for its development, we noted interesting comparisons between what we, the authors—subject matter experts, would heuristically conclude from the training data and the surrogate model predictions. We detected nuanced details that were missed by the surrogate model; however, these details are not important to an energetic material formulator. We concluded that the algorithm did indeed robustly learn the training data and produce an accurate surrogate model. We further concluded that the surrogate model is a powerful tool to guide the formulator in the absence of subject matter experts and limited-access computing resources.
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