Numerical analysis of the effect of the geometric parameters of a combined shaped-charge liner on the mass and velocity of explosively formed compact elements

Федоров, С. В.; Bayanova, Ya. M.; Ladov, S. V.

doi:10.1134/s0010508215010141

Cited by 25 publications

(9 citation statements)

References 2 publications

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“…In the second case, the liner is a spherical segment, spheroid, triaxial ellipsoid or a structure similar to the cone but with blunt ending at the top. There are possible intermediate variants of a liner's shape, designed to create high-speed compact projectiles [5].…”

Section: Literature Review and Problem Statementmentioning

confidence: 99%

New Functional Materials in Mechanical Engineering and Geology

Wojewódka¹,

Voitenko²,

Zakusylo³

et al. 2019

Cent. Eur. J. Energ. Mater.

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Section: Literature Review and Problem Statementmentioning

confidence: 99%

New Functional Materials in Mechanical Engineering and Geology

Wojewódka¹,

Voitenko²,

Zakusylo³

et al. 2019

Cent. Eur. J. Energ. Mater.

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“…При расчете пластического течения упругопластической среды использовался упрощенный подход [10], в соответствии с которым первоначально определяли действующие в среде компоненты девиатора тензора напряжений в предположении упругого поведения материала с последующей их корректировкой на основании условия пластичности (так называемая процедура приведения вектора девиатора напряжений на круг текучести). Описанный алгоритм был опробован на численном решении широкого круга задач взрывного и ударного нагружений сплошных сред и хорошо себя зарекомендовал [11][12][13]. К числу его достоинств следует отнести возможность расчета движений сплошной среды с большими деформациями без использования специальных процедур перестройки расчетной сетки.…”

Section: проникание бетонная преграда перегрузка снаряжение ударниunclassified

Effect of Filling Compressibility on the Variables of State During Projectile Penetration into a Concrete Target

Федоров¹,

Veldanov²,

Перфильев³

et al. 2017

HoBMSTU.SME

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“…In the development of shaped charge skill, people pursued other geometrically shaped liners. Fedorov et al [2] once proposed a liner with shape of hemisphere-cylinder combination for a shaped charge setup. Cao et al [3] made numerical simulation on several shaped charges with different liner shapes and gained the conclusion that liner with hemisphere shape has worst penetration ability and hence limited application based on the simulated results of lowest jet tip velocity.…”

Section: Introductionmentioning

confidence: 99%

Numerical Simulation on Conical Shaped Charge with Copper Liner in Several Typical Shapes

Liu

Zhai

2019

Materials Research Proceedings

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Conical shaped charges with five types of liner geometries: (1) cone, (2) round-tipped cone (3) hemisphere, (4) ellipsoid, and (5) trumpet, have numerically been simulated to investigate jet formation and target penetration capabilities via LS-DYNA Multi-Materials Arbitrary Lagrangian Eulerian (MMALE) technique. The purpose is to observe the influences of liner shapes on performance of shaped charge setup and, the final behavior of such shaped charge devices. The explosive filling and the liner material are kept to be identical in the study. Simulation results show that the hemispherical liner brings out the lowest penetration performance, while the cone and round-tipped cone shaped liners result in highest performance, and, ellipsoid and trumpet liners are of middle performance, in comparison. Especially, shaped charges with both ellipsoid and trumpet liners present no remarkable discrepancy on penetration depth, but the entrance craters are of dramatically geometrical difference. Such penetration features are anticipated to be applicable in technical design of shaped charges for various specific applications.

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Numerical analysis of the effect of the geometric parameters of a combined shaped-charge liner on the mass and velocity of explosively formed compact elements

Cited by 25 publications

References 2 publications

New Functional Materials in Mechanical Engineering and Geology

New Functional Materials in Mechanical Engineering and Geology

Effect of Filling Compressibility on the Variables of State During Projectile Penetration into a Concrete Target

Numerical Simulation on Conical Shaped Charge with Copper Liner in Several Typical Shapes

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