L. Starczewski scite author profile

Nanostructured bainite-austenite steels are applied in the armours construction due to their excellent combination of strength and ductility which enables to lower the armour weight and to improve the protection efficiency. Mechanical properties of the bainite-austenite steels can be controlled in the wide range by chemical composition and heat treatment. In the paper the results of investigation comprising measuring of quasi -static mechanical properties, dynamic yield stress and firing tests of bainite-austenite steel NANOS-BA R are presented. Reported results show that the investigated bainite-austenite steel can be used for constructing add-on armour and that the armour fulfils requirements of protection level 2 of STANAG 4569. Obtained reduction in weight of the tested NANOS-BA R plates in comparison with the present solutions is about 30%. Keywords: nanostructured steel, bainite-austenite steel, armours, mechanical properties Nanostrukturalne stale bainityczno-austenityczne stosowane do konstrukcji osłon balistycznych ze względu na znakomitą kombinację wytrzymałości i ciągliwości umożliwiają obniżenie masy własnej osłon i podwyższenie ich skuteczności ochronnej. Właściwości mechaniczne stali bainityczno-austenitycznych mogą być kontrolowane w szerokim zakresie poprzez modyfikację składu chemicznego i parametrów obróbki cieplnej. W artykule przedstawiono wyniki badań właściwości mechanicznych wyznaczanych w testach statycznych i dynamicznych oraz wyniki prób przestrzeleniowych. Przedstawione wyniki badań wskazują, że stale bainityczno-austenityczne (NANOS-BA R ) mogą zostać wykorzystane do konstrukcji opancerzenia o masie własnej mniejszej o 30% w stosunku do rozwiązań stosowanych obecnie dla wymaganego 2 poziomu ochrony według STANAG 4569.

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Protection effectiveness of perforated plates made of high strength steel

Burian

Żochowski

Gmitrzuk

et al. 2019

International Journal of Impact Engineering

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Mechanisms of transferring the matter in a friction process in a tribology system: polymeric composite-metal

Starczewski

Szumniak

1998

Surface and Coatings Technology

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The Influence of the Explosive Ordnance Disposal Suit on the Bomb Squad Safety

Gmitrzuk

Starczewski

Szcześniak

et al. 2018

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The article presents a study on the influence of shock wave on a Hybrid III anthropomorphic test device (ATD HIII) equipped with an explosive ordnance disposal (EOD) suit. The shock wave was generated by the detonation of SEMTEX 1A plastic explosive, formed in the shape of a 250 g, 500 g, and 840 g sphere, at a distance of 0.5 m, 1 m, and 2 m. The use of ATD allowed for determining parameters of damage to the human body as a result of the impact of overpressure wave. The experiments also included a measurement of such parameters as forces and moments on lower extremi-ties, acceleration of head and pelvis, and forces and moments on a neck simulator. Chest Wall Velocity Predictor (CWVP), calculated from the pressure measured on ADT’s chest, was adopted as the most critical parameter. It was revealed that the allowed distance of explosion of a 500 g pure explosive, which does not cause exceeding the allowed parameters, is 1 m.

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L. Starczewski

Tribochemical reactions of dibenzyl and diphenyl disulphides in boundary lubrication

Nanostructured Bainite-Austenite Steel for Armours Construction

Protection effectiveness of perforated plates made of high strength steel

Mechanisms of transferring the matter in a friction process in a tribology system: polymeric composite-metal

The Influence of the Explosive Ordnance Disposal Suit on the Bomb Squad Safety

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