Impact response of thin aluminium plates and hemispherical shells .An experimental and numerical investigation has been carried out to compare the ballistic performance and energy
.In the present work, impact experiments of titanium alloy and tool steel projectiles, with velocities ranging from 190 to 299 m/s, into 3.175 mm thick 2024-T3 sheet
Simulations of selected impact experiments, using a six-component anisotropic plasticity model for the target, are compared to the experimental data. Two model parameter sets are used.
The rolled aluminum alloy sheets usually have anisotropic properties that affect its ductile fracture behavior. In order to study the plastic anisotropy and ductile fracture behavior of aluminum al...
In the present work, impact experiments of titanium alloy and tool steel projectiles, with velocities ranging from 190 to 299 m/s, into 3.175 mm thick 2024-T3 sheet and 12.7 mm thick 2024
With the recent conflicts in Iraq and Afghanistan, new threats have appeared which made necessary to MCficantly improve the ballistic resistance of all materials used for armor plates,
.The energy absorption by different aluminium alloy plates during ballistic impact can be depicted from the post ballistic microstructural observations. The target material tries to
.In order to study the plastic anisotropy and ductile fracture behavior of aluminum alloy 6016 sheet, the Hill48 anisotropic yield criterion is introduced into the
Understand the role of materials like aluminum, steel, and titanium in creating effective armor. Discover the potential of Al-Li alloys for structural armor
2024 Aluminum sheet and plate are known to have anisotropic strength characteristics with regard to plasticity. However, numerical investigations of the impact behavior of sheet metals rarely
.Ballistic impact mechanism is a very complex mechanical process mainly depends on the thickness, strength, ductility, toughness and density of the target material and
.The impact resistance of 2024 aluminium alloy target plate of varying curvature ratio has been studied against conical impactor through numerical simulations using ABAQUS
Ballistic impact of anisotropic 2024 aluminum sheet and plate J. Seidt J. M. Pereira A. Gilat D. Revilock Kapil Nandwana Engineering, Materials Science 2013 46
.Numerical simulation is a feasible and effective way to investigate the ballistic impact behavior of material. In this research, the numerical simulations of ballistic impact
Supporting: 2, Mentioning: 15 - Ballistic impact of anisotropic 2024 aluminum sheet and plate - Seidt, Jeremy D., Pereira, J. Michael, Gilat, Amos, Revilock, Duane M ...
.Regarding energy absorption, variations in impact velocity have a minimal effect on the total energy absorption. The contacted target plate absorbs MCficantly more energy
.Normal impact experiments of titanium alloy and tool steel projectiles, with impact velocities ranging from 190 to 299 m/s, into 3.175 mm thick 2024-T3 sheet and 12.7
.This report describes ballistic impact testing which has been conducted on Aluminum (Al) 2024 and Titanium (Ti) 6Al-4Vanadium (V) sheet and plate samples of different
.The ballistic resistance of stiffened targets at the nine different locations are measured, and the data is in good agreement with the proposed mathematical model. Paik
.Google Scholar [6] J.D. Seidt, J.M. Pereira, A. Gilat, D.M. Revilock, K. Nandwana Ballistic impact of anisotropic 2024 aluminum sheet and plate Int. J. Impact Engg., 62 (2013),
2024 Aluminum sheet and plate are known to have anisotropic strength characteristics with regard to plasticity. However, numerical investigations of the impact behavior of sheet metals rarely
.This report describes ballistic impact testing which has been conducted on Aluminum (Al) 2024 and Titanium (Ti) 6Al-4Vanadium (V) sheet and plate samples of different
.The ballistic resistance of stiffened targets at the nine different locations are measured, and the data is in good agreement with the proposed mathematical model. Paik
.Google Scholar [6] J.D. Seidt, J.M. Pereira, A. Gilat, D.M. Revilock, K. Nandwana Ballistic impact of anisotropic 2024 aluminum sheet and plate Int. J. Impact Engg., 62 (2013),
2024 Aluminum sheet and plate are known to have anisotropic strength characteristics with regard to plasticity. However, numerical investigations of the impact behavior of sheet metals rarely
2024 Aluminum sheet and plate are known to have anisotropic strength characteristics with regard to plasticity. However, numerical investigations of the impact behavior of sheet metals rarely
.Of experiments taken, if it cannot eliminate. In this research, a ballistic impact on the aluminium AA5083-H116 plate by using a rigid steel projectile is examined through
2024 Aluminum sheet and plate are known to have anisotropic strength characteristics with regard to plasticity. However, numerical investigations of the impact behavior of sheet metals rarely
.Abstract A numerical investigation was carried out to analyze in details the perforation process of target AA5754-O Aluminum plate when subjected to normal impact at
2024 Aluminum sheet and plate are known to have anisotropic strength characteristics with regard to plasticity. However, numerical investigations of the impact behavior of sheet metals rarely
.The present study describes and analyses the experimental results pertinent to the ballistic behaviour of six different series of commercially available aluminium alloys
.Selected snapshots of the impact, showing the phases of breakout, fragmentation, and expansion of the debris cloud for the case of a 5 mm S2 steel ball
Abstract Numerical simulation is a feasible and efective way to investigate the ballistic impact behavior of material. In this research, the numerical simulations of ballistic impact behavior of
.The present study describes and analyses the experimental results pertinent to the ballistic behaviour of six different series of commercially available aluminium alloys
.Selected snapshots of the impact, showing the phases of breakout, fragmentation, and expansion of the debris cloud for the case of a 5 mm S2 steel ball
Abstract Numerical simulation is a feasible and efective way to investigate the ballistic impact behavior of material. In this research, the numerical simulations of ballistic impact behavior of
.Abstract Single-shot ballistic impact experiments are conducted on a 2024-T4 aluminum alloy (2024Al-T4) using spherical projectiles, to investigate the effects of impact
.Conversely, Seidt et al. [19] looked at the effect of using an anisotropic yield surface in blunt-nosed projectile impact of aluminum sheets and plates. They conclude that the
.This study aims to determine the ballistic performances of laminated composite plates produced with AA5083-H112 series aluminum and rubber material with high elongation
.At impact velocities surpassing the ballistic limit, there is adhesive failure at the junction between the face plate and the core. The high velocities subject the material to
.This study aims to determine the ballistic performances of laminated composite plates produced with AA5083-H112 series aluminum and rubber material with high elongation
.Normal impact experiments of titanium alloy and tool steel projectiles, with impact velocities ranging from 190 to 299 m/s, into 3.175 mm thick 2024-T3 sheet and 12.7
.This study aims to determine the ballistic performances of laminated composite plates produced with AA5083-H112 series aluminum and rubber material with high elongation
The in-plane anisotropy (IPA) of mechanical properties existed in plate products is often undesired since it limits the industrial application and increases the difficulty of material processing. It is
The effects of the spraying thickness and the position on the response of aluminum plates under impact loading were studied. The impact tests and numerical simulation were conducted for