Ballistic Impact Characteristics of Flat-nose Projectile Penetrating Concrete and Soil Compound Target

Dong, Yongxiang; Feng, Shunshan; Huang, Guangyan; Liu, Chunmei; Xiao, Lixing; Song, Qi

doi:10.1515/ijnsns-2011-0144

Cited by 5 publications

(2 citation statements)

References 12 publications

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“…The characteristics of the impact area, cracks, craters, and adjacent zones generally agree with the simulation data, leading to a good description of the complex interaction between the projectile and the target [35].…”

Section: Materials Models For Virtual Ballistic Testingsupporting

confidence: 67%

Virtual Testing of Composite Structures Made of High Entropy Alloys and Steel

Geantă

Cherecheș²,

Lixandru³

et al. 2017

Metals

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High entropy alloys (HEA) are metallic materials obtained from a mixture of at least five atomic-scale chemical elements. They are characterized by high mechanical strength, good thermal stability and hardenability. AlCrFeCoNi alloys have high compression strength and tensile strength values of 2004 MPa, respectively 1250 MPa and elongation of about 32.7%. These materials can be used to create HEA-steel type composite structures which resist to dynamic deformation during high speed impacts. The paper presents four different composite structures made from a combination of HEA and carbon steel plates, using different joining processes. The numerical simulation of the impact behavior of the composite structures was performed by virtual methods, taking into account the mechanical properties of both materials. For analyzing each constructive variant, three virtual shootings were designed, using a 7.62 × 39 mm cal. incendiary armor-piercing bullet and different impact velocities. The best ballistic behavior was provided by the composite structures obtained by welding and brazing that have good continuity and rigidity. The other composite structures, which do not have good surface adhesion, show high fragmentation risk, because the rear plate can fragment on the axis of shooting due to the combination between the shock waves and the reflected ones. The order of materials in the composite structure has a very important role in decreasing the impact energy.

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Section: Materials Models For Virtual Ballistic Testingsupporting

confidence: 67%

Virtual Testing of Composite Structures Made of High Entropy Alloys and Steel

Geantă

Cherecheș²,

Lixandru³

et al. 2017

Metals

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show abstract

“…Chai and Manikandan 7 and Sadighi et al 8 presented a comprehensive review of relevant literature published on the dynamic response of FMLs, which included experimental, numerical, and analytical works. Dong et al 9 focused on the analysis of concrete and soil target under the penetration of flat projectile with LS-DYNA software. He showed that the depth of penetration and residual velocity is a function of projectile initial velocity.…”

Section: Introductionmentioning

confidence: 99%

Experimental and numerical investigation on the effect of projectile nose shape in low-velocity impact loading on fiber metal laminate panels

Ahmadi

Ekrami

Sabouri

et al. 2018

Proceedings of the Institution of Mechanical Engineers, Part G:

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In this paper, low-velocity impact responses of 2/1 GLARE 3 (a commercial type of fiber metal laminate) specimens were studied experimentally and numerically. The effects of indenter's nose shape (flat, conical, and hemispherical) on energy absorption and failure mechanisms were thoroughly investigated. Drop weight testing machine with different impact energies was used for experimental tests and numerical simulation was also carried out. Failure mechanisms, such as delamination, debonding, aluminum sheet rupture, and composite laminate fracture, were discussed by sectioning the tested specimens. The results indicate that maximum and minimum contact force occurred with flat and conical indenters, respectively. Also, the target absorbs the utmost energy under the penetration of flat indenter and least energy during conical indenter perforation. It is depicted that the deflection at the peak load represents the main failure of the panel. Consequently, front aluminum sheet failure is determinant in fiber metal laminate panels impacted by flat and hemispherical indenters where back aluminum sheet is more significant for fiber metal laminate panels impacted by the conical indenter. Numerical simulation verified by experimental results is extended to lower impact weights and more velocities, which are discussed.

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Experimental and Numerical Investigation of Ballistic Impact Response of Polymethylmetacrylate

Jeon,

Mosalam

2024

J. Mater. Civ. Eng.

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Ballistic Impact Characteristics of Flat-nose Projectile Penetrating Concrete and Soil Compound Target

Cited by 5 publications

References 12 publications

Virtual Testing of Composite Structures Made of High Entropy Alloys and Steel

Virtual Testing of Composite Structures Made of High Entropy Alloys and Steel

Experimental and numerical investigation on the effect of projectile nose shape in low-velocity impact loading on fiber metal laminate panels

Experimental and Numerical Investigation of Ballistic Impact Response of Polymethylmetacrylate

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