Study on the critical velocity for initiation of a covered explosive by fragment impact

Wanqian Yu; Haijun Zhang; Shang Guo; Qinghai Shu

doi:10.1088/1742-6596/2891/6/062010

Study on the critical velocity for initiation of a covered explosive by fragment impact

Wanqian Yu, Haijun Zhang, Shang Guo, Qinghai Shu

School of Material Science and Engineering

Research output: Contribution to journal › Conference article › peer-review

Abstract

This study examines the critical velocity for initiating a covered explosive via fragment impact, crucial for enhancing ammunition safety and reliability. Using numerical simulation techniques, the initiation threshold and influencing factors under non-normal impact conditions are investigated, which are more relevant to battlefield scenarios. The Jacobs-Roslund formula for NTO based insensitive explosive is calibrated, which is applicable for both flat-nosed and standard conical-nosed fragments. To account for a large range of impact angles, a correction term is introduced, and the predicted values are in good agreement with the simulation results. The effects of fragment pitch, yaw, and charge curvature on the critical velocity are found to be minimal at impact angle not exceeding 25°.

Original language	English
Article number	062010
Journal	Journal of Physics: Conference Series
Volume	2891
Issue number	6
DOIs	https://doi.org/10.1088/1742-6596/2891/6/062010
Publication status	Published - 2024
Event	4th International Conference on Defence Technology, ICDT 2024 - Xi'an, China Duration: 23 Sept 2024 → 26 Sept 2024

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title = "Study on the critical velocity for initiation of a covered explosive by fragment impact",

abstract = "This study examines the critical velocity for initiating a covered explosive via fragment impact, crucial for enhancing ammunition safety and reliability. Using numerical simulation techniques, the initiation threshold and influencing factors under non-normal impact conditions are investigated, which are more relevant to battlefield scenarios. The Jacobs-Roslund formula for NTO based insensitive explosive is calibrated, which is applicable for both flat-nosed and standard conical-nosed fragments. To account for a large range of impact angles, a correction term is introduced, and the predicted values are in good agreement with the simulation results. The effects of fragment pitch, yaw, and charge curvature on the critical velocity are found to be minimal at impact angle not exceeding 25°.",

author = "Wanqian Yu and Haijun Zhang and Shang Guo and Qinghai Shu",

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AU - Yu, Wanqian

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AU - Guo, Shang

AU - Shu, Qinghai

PY - 2024

Y1 - 2024

N2 - This study examines the critical velocity for initiating a covered explosive via fragment impact, crucial for enhancing ammunition safety and reliability. Using numerical simulation techniques, the initiation threshold and influencing factors under non-normal impact conditions are investigated, which are more relevant to battlefield scenarios. The Jacobs-Roslund formula for NTO based insensitive explosive is calibrated, which is applicable for both flat-nosed and standard conical-nosed fragments. To account for a large range of impact angles, a correction term is introduced, and the predicted values are in good agreement with the simulation results. The effects of fragment pitch, yaw, and charge curvature on the critical velocity are found to be minimal at impact angle not exceeding 25°.

AB - This study examines the critical velocity for initiating a covered explosive via fragment impact, crucial for enhancing ammunition safety and reliability. Using numerical simulation techniques, the initiation threshold and influencing factors under non-normal impact conditions are investigated, which are more relevant to battlefield scenarios. The Jacobs-Roslund formula for NTO based insensitive explosive is calibrated, which is applicable for both flat-nosed and standard conical-nosed fragments. To account for a large range of impact angles, a correction term is introduced, and the predicted values are in good agreement with the simulation results. The effects of fragment pitch, yaw, and charge curvature on the critical velocity are found to be minimal at impact angle not exceeding 25°.

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VL - 2891

JO - Journal of Physics: Conference Series

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T2 - 4th International Conference on Defence Technology, ICDT 2024

Y2 - 23 September 2024 through 26 September 2024

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Study on the critical velocity for initiation of a covered explosive by fragment impact

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