Mechanism of Chemically Induced Structural Evolution of Lead Azide under Hygrothermal Condition

Chuan Hu; Yuewen Lu; Qian Yu; Ji Min Han; Wenchao Tong; Dongxu Zhang; Qianyou Wang; Li Yang

doi:10.1021/acs.langmuir.4c05367

Mechanism of Chemically Induced Structural Evolution of Lead Azide under Hygrothermal Condition

Chuan Hu, Yuewen Lu, Qian Yu, Ji Min Han, Wenchao Tong, Dongxu Zhang, Qianyou Wang^*, Li Yang^*

^*此作品的通讯作者

机电学院

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

Aging behavior of pyrotechnic agents is a serious threat to the reliability of the practical application of pyrotechnic products, while multiple environmental factors make it challenging to characterize the aging mechanism of pyrotechnic agents. This paper explored the aging process of LA in four hygrothermal environments with morphology and structure analysis techniques. LA aging underwent three stages: rapid surface reaction with H₂O and CO₂, interior hydrolysis by H₂O, and CO₂ reaction with lead oxides. The cavity structures formed during LA’s structural evolution reduced its energy density, causing increased energy dissipation under mechanical stimuli and preventing ignition. Further, reactions formed by inert lead compounds resisted electrostatic ignition, leading to agent failure. This comprehensive study provided a solid foundation for understanding the aging behavior of LA in multistress environments, offering valuable insights into its safe storage and handling.

源语言	英语
页（从-至）	7056-7063
页数	8
期刊	Langmuir
卷	41
期	10
DOI	https://doi.org/10.1021/acs.langmuir.4c05367
出版状态	已出版 - 18 3月 2025

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Hu, C., Lu, Y., Yu, Q., Han, J. M., Tong, W., Zhang, D., Wang, Q., & Yang, L. (2025). Mechanism of Chemically Induced Structural Evolution of Lead Azide under Hygrothermal Condition. Langmuir, 41(10), 7056-7063. https://doi.org/10.1021/acs.langmuir.4c05367

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title = "Mechanism of Chemically Induced Structural Evolution of Lead Azide under Hygrothermal Condition",

abstract = "Aging behavior of pyrotechnic agents is a serious threat to the reliability of the practical application of pyrotechnic products, while multiple environmental factors make it challenging to characterize the aging mechanism of pyrotechnic agents. This paper explored the aging process of LA in four hygrothermal environments with morphology and structure analysis techniques. LA aging underwent three stages: rapid surface reaction with H2O and CO2, interior hydrolysis by H2O, and CO2 reaction with lead oxides. The cavity structures formed during LA{\textquoteright}s structural evolution reduced its energy density, causing increased energy dissipation under mechanical stimuli and preventing ignition. Further, reactions formed by inert lead compounds resisted electrostatic ignition, leading to agent failure. This comprehensive study provided a solid foundation for understanding the aging behavior of LA in multistress environments, offering valuable insights into its safe storage and handling.",

author = "Chuan Hu and Yuewen Lu and Qian Yu and Han, {Ji Min} and Wenchao Tong and Dongxu Zhang and Qianyou Wang and Li Yang",

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AU - Hu, Chuan

AU - Lu, Yuewen

AU - Yu, Qian

AU - Han, Ji Min

AU - Tong, Wenchao

AU - Zhang, Dongxu

AU - Wang, Qianyou

AU - Yang, Li

PY - 2025/3/18

Y1 - 2025/3/18

N2 - Aging behavior of pyrotechnic agents is a serious threat to the reliability of the practical application of pyrotechnic products, while multiple environmental factors make it challenging to characterize the aging mechanism of pyrotechnic agents. This paper explored the aging process of LA in four hygrothermal environments with morphology and structure analysis techniques. LA aging underwent three stages: rapid surface reaction with H2O and CO2, interior hydrolysis by H2O, and CO2 reaction with lead oxides. The cavity structures formed during LA’s structural evolution reduced its energy density, causing increased energy dissipation under mechanical stimuli and preventing ignition. Further, reactions formed by inert lead compounds resisted electrostatic ignition, leading to agent failure. This comprehensive study provided a solid foundation for understanding the aging behavior of LA in multistress environments, offering valuable insights into its safe storage and handling.

AB - Aging behavior of pyrotechnic agents is a serious threat to the reliability of the practical application of pyrotechnic products, while multiple environmental factors make it challenging to characterize the aging mechanism of pyrotechnic agents. This paper explored the aging process of LA in four hygrothermal environments with morphology and structure analysis techniques. LA aging underwent three stages: rapid surface reaction with H2O and CO2, interior hydrolysis by H2O, and CO2 reaction with lead oxides. The cavity structures formed during LA’s structural evolution reduced its energy density, causing increased energy dissipation under mechanical stimuli and preventing ignition. Further, reactions formed by inert lead compounds resisted electrostatic ignition, leading to agent failure. This comprehensive study provided a solid foundation for understanding the aging behavior of LA in multistress environments, offering valuable insights into its safe storage and handling.

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Mechanism of Chemically Induced Structural Evolution of Lead Azide under Hygrothermal Condition

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