Characterization of the Mechanical Behavior of a Lead Alloy, from Quasi-Static to Dynamic Loading for a Wide Range of Temperatures

Coget, Yann; Demarty, Yaël; Rusinek, Alexis

doi:10.3390/ma13102357

Cited by 8 publications

(3 citation statements)

References 24 publications

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“…The cylindrical sample is presented on the Fig 1 .b. The constitutive model of the lead alloy core is a custom perfect plasticity model taking into account the temperature and strain rate dependencies presented in [6] defined by equations, (3) and Table 1. The material was tested up to dynamic deformation ranges for different temperatures with an adapted SHPB setup.…”

Section: Comparison Between Experimental and Numerical Resultsmentioning

confidence: 99%

“…This is why the geometry of the samples is kept as close as possible to the geometry of the ammunition (see Fig 1 .b and c). It is composed of the same lead core studied in [6] and the steel jacket, studied separately in an internal project. The dimensions of the final sample are 9.0 mm in diameter and 5.7 mm height.…”

Section: Sample Preparationmentioning

confidence: 99%

“…By neglecting the geometry of the ammunition, which has undergone multiple stages of forming, behavioural differences are induced and can result in an incorrect modelling. In the preceding study, the mechanical behaviour of the lead alloy core has been examined in order to identify a constitutive model [6][7]. Concurrently, the steel jacket material surrounding the lead core has also been investigated, leading to the identification of the Johnson-Cook model parameters [8].…”

Section: Introductionmentioning

confidence: 99%

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Dynamic testing and simulation of 9 mm full metal jacket ammunition

et al. 2021

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Ballistic protection for armed forces requires a continuous performance improvement to successfully face ever evolving threats and scenarios. Ballistic tests are conventionally carried out in order to assess and validate the levels of protection to a high degree of accuracy. Although very effective, those tests are often time consuming and lack the necessary flexibility. A better approach would be to set up a numerical protocol for a number of simulations and only carry out final real life validation tests. Unquestionably, the main advantage of finite element modelling is the possibility to simultaneously evaluate a wide variety of configurations and their interactions (materials, geometry, architecture, etc.). For reliability, it is necessary to use sufficiently precise material behaviour models to accurately transcribe the phenomena observed during the impact. Our study focuses on the mechanical behaviour of 9 mm ammunition materials, namely a lead alloy core and a steel alloy jacket. For this purpose, a preliminary study (not presented here), was carried out on both the lead core and the steel jacket separately and the parameters for each constitutive model were determined. Lead-steel cylindrical samples, extracted from the ammunition, have been used for the validation of the entire constitutive model. By utilizing those samples, a high degree of the ammunitions material properties have been retained. SHPB tests have been carried out in multiple conditions, varying the striker speeds and temperatures. Additionally, the tests were recorded with an ultra-high speed camera. Strain gages were used to record signals along the input and output bars. Those measurements have been compared to numerical results using Finite Element code (ABAQUS® Explicit). A very satisfying correlation between the experimental data and the simulation has been reached, thus validating the jacket and core constitutive models and interactions for subsequent studies of ballistic impacts.

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Section: Comparison Between Experimental and Numerical Resultsmentioning

confidence: 99%

Section: Sample Preparationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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