Although advanced lightweight composite based armors are available, high hardness steels in military vehicles are often used to provide ballistic protection at a relatively low cost and is an interesting material due to its widespread usage in vehicle structure. In this study, ballistic limit of 500 HB armor steel was determined against 7.62 mm 54R B32 API hardened steel core ammunition. Lagrange and smoothed particle hydrodynamics (SPH) simulations were carried out using 3D model of bullet and high hardness armor target. Perforation tests on 9 and 20 mm thickness armor were performed to validate simulation methodology. Also material tests were performed for armor steel and ammunition hardened steel core to develop Johnson-Cook constitutive...
A theoretical approach to the ballistic penetration and armor development has been made and a single...
Thin plates of high-strength steel are frequently being used in ballistic protection systems. In thi...
Ballistic protection for armed forces requires a continuous performance improvement to successfully ...
In this paper, some of the important defeating mechanisms of the high hardness perforated plates aga...
Ballistic testing is a vital part of the armor design. However, it is impossible to test every condi...
Ballistic performance of engineering materials should be known in selection of the most suitable arm...
There is an urgent need to develop light-weight protective structures with a sufficient protection t...
Terminal ballistics study multivariate behavior and aftermath of projectile and target interactions....
The change in ballistic performance of AISI 4340 steel plates with different thicknesses and varying...
The ballistic performance of an ultra-high hardness armour steel (UHA) has been evaluated for a rang...
We investigated the ballistic resistance of hot-rolled structural steel plates with a nominal yield ...
In this study, a constitutive strength and failure model for a steel core of a14.5 mm API projectile...
In this study the ballistic limit of a steel helmet against a FMJ 919 mm caliber bullet is estimated...
The present contribution aims to assess the properties of ultra-high-hardness (UHA) armor steels. Ch...
In this study, a boron added armor steel was developed according to standard rolled homogenous armor...
A theoretical approach to the ballistic penetration and armor development has been made and a single...
Thin plates of high-strength steel are frequently being used in ballistic protection systems. In thi...
Ballistic protection for armed forces requires a continuous performance improvement to successfully ...
In this paper, some of the important defeating mechanisms of the high hardness perforated plates aga...
Ballistic testing is a vital part of the armor design. However, it is impossible to test every condi...
Ballistic performance of engineering materials should be known in selection of the most suitable arm...
There is an urgent need to develop light-weight protective structures with a sufficient protection t...
Terminal ballistics study multivariate behavior and aftermath of projectile and target interactions....
The change in ballistic performance of AISI 4340 steel plates with different thicknesses and varying...
The ballistic performance of an ultra-high hardness armour steel (UHA) has been evaluated for a rang...
We investigated the ballistic resistance of hot-rolled structural steel plates with a nominal yield ...
In this study, a constitutive strength and failure model for a steel core of a14.5 mm API projectile...
In this study the ballistic limit of a steel helmet against a FMJ 919 mm caliber bullet is estimated...
The present contribution aims to assess the properties of ultra-high-hardness (UHA) armor steels. Ch...
In this study, a boron added armor steel was developed according to standard rolled homogenous armor...
A theoretical approach to the ballistic penetration and armor development has been made and a single...
Thin plates of high-strength steel are frequently being used in ballistic protection systems. In thi...
Ballistic protection for armed forces requires a continuous performance improvement to successfully ...