MORE ON HIGH OBLIQUITY IMPACT AND EXPLOSIVE INITIATION

D. Elmalich; V. Leus; V. Ognev; M. Mayseless; R. Ceder

doi:10.12783/ballistics25/37100

MORE ON HIGH OBLIQUITY IMPACT AND EXPLOSIVE INITIATION

D. Elmalich
, V. Leus
, V. Ognev
, M. Mayseless
, R. Ceder

Department of Mechanical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

The initiation of covered high explosives (HE) upon impact was studied employing 3D numerical simulations, based on experimental calibration, where emphasis was placed on very high obliquity impact angles, close to the ricochet angle. Two distinct initiation models were used and compared in the work, ignition and growth model (IG) and, the Temperature Dependent Reaction Rate (TDRR) initiation model. A comparison is made between the initiation prediction of the two models at the very high obliquities regime. As the impact obliquity increases, the vertical component of the impact velocity decreases while the tangential component increases, raising the overall impact velocity needed for HE initiation in all cases. However, as the impact obliquity continues to increase, an anomaly in the impact velocity needed for initiation, where both the normal and the tangential components increase to achieve initiation, is observed in both models.

Original language	English
Title of host publication	Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025
Editors	Don Carlucci, W. Casey Uhlig
Publisher	DEStech Publications
Pages	198-206
Number of pages	9
ISBN (Electronic)	9781605956978
DOIs	https://doi.org/10.12783/ballistics25/37100
State	Published - 1 Jan 2025
Event	34th International Symposium on Ballistics, BALLISTICS 2025 - Jacksonville, United States Duration: 19 May 2025 → 23 May 2025

Publication series

Name	Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025
Volume	1

Conference

Conference	34th International Symposium on Ballistics, BALLISTICS 2025
Country/Territory	United States
City	Jacksonville
Period	19/05/25 → 23/05/25

ASJC Scopus subject areas

Aerospace Engineering
Polymers and Plastics
Surfaces, Coatings and Films

Access to Document

10.12783/ballistics25/37100

Cite this

Elmalich, D., Leus, V., Ognev, V., Mayseless, M., & Ceder, R. (2025). MORE ON HIGH OBLIQUITY IMPACT AND EXPLOSIVE INITIATION. In D. Carlucci, & W. C. Uhlig (Eds.), Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025 (pp. 198-206). (Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025; Vol. 1). DEStech Publications. https://doi.org/10.12783/ballistics25/37100

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title = "MORE ON HIGH OBLIQUITY IMPACT AND EXPLOSIVE INITIATION",

abstract = "The initiation of covered high explosives (HE) upon impact was studied employing 3D numerical simulations, based on experimental calibration, where emphasis was placed on very high obliquity impact angles, close to the ricochet angle. Two distinct initiation models were used and compared in the work, ignition and growth model (IG) and, the Temperature Dependent Reaction Rate (TDRR) initiation model. A comparison is made between the initiation prediction of the two models at the very high obliquities regime. As the impact obliquity increases, the vertical component of the impact velocity decreases while the tangential component increases, raising the overall impact velocity needed for HE initiation in all cases. However, as the impact obliquity continues to increase, an anomaly in the impact velocity needed for initiation, where both the normal and the tangential components increase to achieve initiation, is observed in both models.",

author = "D. Elmalich and V. Leus and V. Ognev and M. Mayseless and R. Ceder",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 by International Ballistics Society. All Rights Reserved.; 34th International Symposium on Ballistics, BALLISTICS 2025 ; Conference date: 19-05-2025 Through 23-05-2025",

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month = jan,

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doi = "10.12783/ballistics25/37100",

language = "English",

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Elmalich, D, Leus, V, Ognev, V, Mayseless, M & Ceder, R 2025, MORE ON HIGH OBLIQUITY IMPACT AND EXPLOSIVE INITIATION. in D Carlucci & WC Uhlig (eds), Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025. Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025, vol. 1, DEStech Publications, pp. 198-206, 34th International Symposium on Ballistics, BALLISTICS 2025, Jacksonville, United States, 19/05/25. https://doi.org/10.12783/ballistics25/37100

MORE ON HIGH OBLIQUITY IMPACT AND EXPLOSIVE INITIATION. / Elmalich, D.; Leus, V.; Ognev, V. et al.
Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025. ed. / Don Carlucci; W. Casey Uhlig. DEStech Publications, 2025. p. 198-206 (Proceedings - 34th International Symposium on Ballistics, BALLISTICS 2025; Vol. 1).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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N2 - The initiation of covered high explosives (HE) upon impact was studied employing 3D numerical simulations, based on experimental calibration, where emphasis was placed on very high obliquity impact angles, close to the ricochet angle. Two distinct initiation models were used and compared in the work, ignition and growth model (IG) and, the Temperature Dependent Reaction Rate (TDRR) initiation model. A comparison is made between the initiation prediction of the two models at the very high obliquities regime. As the impact obliquity increases, the vertical component of the impact velocity decreases while the tangential component increases, raising the overall impact velocity needed for HE initiation in all cases. However, as the impact obliquity continues to increase, an anomaly in the impact velocity needed for initiation, where both the normal and the tangential components increase to achieve initiation, is observed in both models.

AB - The initiation of covered high explosives (HE) upon impact was studied employing 3D numerical simulations, based on experimental calibration, where emphasis was placed on very high obliquity impact angles, close to the ricochet angle. Two distinct initiation models were used and compared in the work, ignition and growth model (IG) and, the Temperature Dependent Reaction Rate (TDRR) initiation model. A comparison is made between the initiation prediction of the two models at the very high obliquities regime. As the impact obliquity increases, the vertical component of the impact velocity decreases while the tangential component increases, raising the overall impact velocity needed for HE initiation in all cases. However, as the impact obliquity continues to increase, an anomaly in the impact velocity needed for initiation, where both the normal and the tangential components increase to achieve initiation, is observed in both models.

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MORE ON HIGH OBLIQUITY IMPACT AND EXPLOSIVE INITIATION

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