Deformation and fracture of impulsively loaded sandwich panels

Wadley, H.N.G.; Børvik, Tore; Olovsson, Lars; Wetzel, J.J.; Dharmasena, Kumar P.; Hopperstad, Odd Sture; Deshpande, V.S.; Hutchinson, John W.

doi:10.1016/j.jmps.2012.07.007

Cited by 106 publications

(93 citation statements)

References 39 publications

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“…A modified version of the Johnson-Cook (MJC) constitutive relation was used to model the target materials (see [1][24] [25]). The constitutive behaviour is assumed to be isotropic and modelled with the von Mises yield criterion even though the materials exhibit some anisotropy (but mainly in the strain to failure, see Figure 3).…”

Section: Constitutive Relation and Fracture Criterionmentioning

confidence: 99%

Effects of heat treatment on the ballistic properties of AA6070 aluminium alloy

Holmen

Johnsen

Jupp

et al. 2013

International Journal of Impact Engineering

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The ballistic properties of the aluminium alloy AA6070 in different tempers are studied, using target plates of 20 mm thickness in tempers O (annealed), T4 (naturally aged), T6 (peak strength) and T7 (overaged). The stressstrain behaviour of the different tempers was characterised by quasi-static tension tests and was found to vary considerably with temper in regards to strength, strain hardening and ductility. Ballistic impact tests using 7.62 mm APM2 bullets were then carried out, and the ballistic limit velocities were obtained for all tempers. In the material tests it was shown that the O-temper was most ductile and almost no fragmentation took place during the ballistic impact tests. The T6-temper proved to be least ductile, and fragmentation was commonly seen. The experiments show that despite fragmentation, strength is a more important feature than ductility in ballistic impact for this alloy, at least for the given projectile and within the velocity range investigated. A thermoelasticthermoviscoplastic constitutive relation and a ductile fracture criterion were determined for each temper, and finite element analyses were performed using the IMPETUS Afea Solver with fully integrated 3 rd -order 64-node hexahedrons. The numerical simulations predicted the same variation in ballistic limit velocity with respect to temper condition as found in the experiments, but the results were consistently to the conservative side. In addition, analytical calculations using the cylindrical cavity expansion theory (CCET) were carried out. The ballistic limit velocities resulting from these calculations were found to be in good agreement with the experimental data.

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Section: Constitutive Relation and Fracture Criterionmentioning

confidence: 99%

Effects of heat treatment on the ballistic properties of AA6070 aluminium alloy

Holmen

Johnsen

Jupp

et al. 2013

International Journal of Impact Engineering

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“…3 [25][32] [34]). This method, which is based on a Lagrangian formulation, has several advantages over coupled Lagrangian-Eulerian approaches as both numerical advection errors and severe contact problems are avoided, while at the same time keeping the computational time at a reasonable level.…”

Section: Introductionmentioning

confidence: 99%

“…It works with discrete, rigid, spherical particles that transfer forces between each other through a penalty-based contact formulation. Modelling the sand as discrete particles allows for a numerically simple and robust treatment of its interaction with structural parts represented by finite elements (see [25] and [34]), and several parametric studies for increased understanding of this particular penetration problem have been carried out.…”

Section: Introductionmentioning

confidence: 99%

Penetration of granular materials by small-arms bullets

Dey¹,

Olovsson

2015

International Journal of Impact Engineering

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This paper presents an experimental and numerical study on the penetration of granular materials by small-arms bullets. In the experimental tests, five different types of granular material (0-2 mm wet sand, 0-2 mm dry sand, 2-8 mm gravel, 8-16 mm crushed stone and 16-22 mm crushed rock) were impacted by four different types of smallarms bullets (7.62 mm Ball with a soft lead core, 7.62 mm AP with a hard steel core, 12.7 mm Ball with a soft steel core and 12.7 mm AP with a tungsten carbide core). The tests were carried out using different rifles to fire the projectiles, while the granular materials were randomly packed in a 320 mm diameter specially-designed steel tube. In all tests, the initial projectile velocity and the depth of penetration in the granular material were measured for each bullet type. In the numerical simulations, a discrete particle-based approach was used to model the behaviour of sand during bullet impact. The method works with discrete particles that transfer forces between each other through contact and elastic collisions, allowing for a simple and robust treatment of the interaction between the sand particles and the bullet which is represented by finite elements. An important observation from the study is that the penetration depth in dry sand is strongly influenced by deviation of the bullet from its original trajectory.Good agreement between the available experimental results and the numerical predictions is also in general obtained.

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“…This raises the question of whether fluidstructure interaction (FSI) between the fluid-like projectile and the deformable target might offer another possible explanation for the dwell phenomenon. FSI effects have been studied in the context of sand sprays impacting deformable structures (14,15). Similar to the impacting long rod, the loading by the sand is also primarily inertial in nature.…”

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confidence: 99%

Unsteady penetration of a target by a liquid jet

Uth

Deshpande

2013

Proc. Natl. Acad. Sci. U.S.A.

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It is widely acknowledged that ceramic armor experiences an unsteady penetration response: an impacting projectile may erode on the surface of a ceramic target without substantial penetration for a significant amount of time and then suddenly start to penetrate the target. Although known for more than four decades, this phenomenon, commonly referred to as dwell, remains largely unexplained. Here, we use scaled analog experiments with a low-speed water jet and a soft, translucent target material to investigate dwell. The transient target response, in terms of depth of penetration and impact force, is captured using a high-speed camera in combination with a piezoelectric force sensor. We observe the phenomenon of dwell using a soft (noncracking) target material. The results show that the penetration rate increases when the flow of the impacting water jet is reversed due to the deformation of the jet-target interface--this reversal is also associated with an increase in the force exerted by the jet on the target. Creep penetration experiments with a constant indentation force did not show an increase in the penetration rate, confirming that flow reversal is the cause of the unsteady penetration rate. Our results suggest that dwell can occur in a ductile noncracking target due to flow reversal. This phenomenon of flow reversal is rather widespread and present in a wide range of impact situations, including water-jet cutting, needleless injection, and deposit removal via a fluid jet.impact loading | ballistic penetration | fluid-structure interaction | interface defeat C eramic materials, although having a reputation for being inherently brittle, have been used for different armor systems for almost a century. The application of ceramic-based armor ranges from protection of aircraft and personnel against smallcaliber threats, to vehicle armor designed to defeat long-rod penetrators and shaped charges.Here, we consider thick, well-confined ceramic armor systems designed to withstand the high-velocity impact of heavy-metal longrod penetrators. Such systems are extensively used to study the dynamic penetration properties of ceramics over relatively long time frames: the confinement prevents/reduces the macroscopic cracking of the ceramic target and thus provides a more controlled experimental setting where statistical effects of cracking are minimized.The time-resolved penetration behavior of ceramic armor has been extensively studied over the past 45 y using flash radiography, a technique used for impact experiments involving optically opaque targets (1-4). As sketched in Fig.

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Deformation and fracture of impulsively loaded sandwich panels

Cited by 106 publications

References 39 publications

Effects of heat treatment on the ballistic properties of AA6070 aluminium alloy

Effects of heat treatment on the ballistic properties of AA6070 aluminium alloy

Penetration of granular materials by small-arms bullets

Unsteady penetration of a target by a liquid jet

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