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Frąś T.♦, Frąś L.J., Faderl N.♦, Rubber and magnetorheological fluid applied as the interlayer in composite armours against high-velocity loadings,
DIAGNOSTYKA, ISSN: 1641-6414, Vol.18, No.3, pp.63-68, 2017Abstract: Monolithic, homogenous ballistic shields consisting of a single thick, high-hardness and high-strength steel plate are rarely applied in modern combat vehicles. Currently, a popular armour concept is a multilayered shield since it is expected that the kinetic energy of a threat may be dissipated by transmission through materials with different properties and also by multiple interface reflections. Searching for a maximum ballistic protection at minimum weight inspires applications of various materials which complementary behaviour provides a high protective efficiency without excessive mass. The preliminary experimental investigation presented in the paper aimed to verify behaviour of two prototyped laminated armours under impacts of small-calibre projectiles (cal. 7.62). The main interest lied in impact properties of materials proposed as the intermediate layer. The first tested concept was a laminated steel armour with the 10 mm thick rubber interlayer. In the second armour, the intermediate layer consisted of a magnetorheological fluid. Keywords: energy absorption, rubber, magnetorheological fluid, protective properties Affiliations:
Frąś T. | - | other affiliation | Frąś L.J. | - | IPPT PAN | Faderl N. | - | French-German Research Institute of Saint-Louis (FR) |
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