In this study, the penetration behaviour of a Mild Steel Cored (MSC) round, 7.62 mm in diameter and 39 mm in length, commonly known as the AK47 round, was studied since it still forms an important part of the threat spectrum for personnel body armour systems. Likewise, boron carbide strike face materials were selected since this armour material is often the material of choice for ultralightweight body armour systems for protection against this particular threat. The presence of two, relatively soft, intermediate materials (the copper jacket and filler material of the bullet, and a fibre-reinforced polymer cladding layer on the ceramic) between the mild steel core and the boron carbide target was examined using reverse ballistics techniqu...
In the present work a validated numerical approach has been used in order to build a robust and reli...
To improve the design of lightweight, high-performance bulletproof armors, three columnar ceramic/fi...
High performance modeling of brittle materials is an efficient, inexpensive, time-saving solution fo...
It has become possible over the last half century to provide lightweight armour capable of defeating...
The purpose of the study is to accelerate the development of ceramic materials for armour applicatio...
The only widely-accepted method of gauging the ballistic performance of a material is to carry out b...
The paper presents a problem of protection against modern pistol ammunition with increased armour-pi...
This article presents computed results of the U. S. Army Research Laboratory (ARL) 14.5 mm BS41 proj...
The protection of forces in the new world conflicts has become a particularly important issue for al...
Currently, there are no reliable methods for screening potential armour materials and hence full-sca...
Experimental, analytical and numerical simulations were performed to study the ballistic resistance ...
Armour systems for ballistic protection can be made from many materials. One type of material used i...
Experimental results are presented from an investigation of the parameters of a ceramic-faced armour...
Described in this paper is the analysis of the applicability of NANOS-BA steel for armour. The resul...
The main goal of this numerical and experimental study of composite armour systems was to investigat...
In the present work a validated numerical approach has been used in order to build a robust and reli...
To improve the design of lightweight, high-performance bulletproof armors, three columnar ceramic/fi...
High performance modeling of brittle materials is an efficient, inexpensive, time-saving solution fo...
It has become possible over the last half century to provide lightweight armour capable of defeating...
The purpose of the study is to accelerate the development of ceramic materials for armour applicatio...
The only widely-accepted method of gauging the ballistic performance of a material is to carry out b...
The paper presents a problem of protection against modern pistol ammunition with increased armour-pi...
This article presents computed results of the U. S. Army Research Laboratory (ARL) 14.5 mm BS41 proj...
The protection of forces in the new world conflicts has become a particularly important issue for al...
Currently, there are no reliable methods for screening potential armour materials and hence full-sca...
Experimental, analytical and numerical simulations were performed to study the ballistic resistance ...
Armour systems for ballistic protection can be made from many materials. One type of material used i...
Experimental results are presented from an investigation of the parameters of a ceramic-faced armour...
Described in this paper is the analysis of the applicability of NANOS-BA steel for armour. The resul...
The main goal of this numerical and experimental study of composite armour systems was to investigat...
In the present work a validated numerical approach has been used in order to build a robust and reli...
To improve the design of lightweight, high-performance bulletproof armors, three columnar ceramic/fi...
High performance modeling of brittle materials is an efficient, inexpensive, time-saving solution fo...