Optimization of target thickness and investigation on the effect of heat treatment on the ballistic performance of aluminium alloy 7075 targets against hard steel core projectile

Abstract: Optimization of target thickness and influence of heat treatment condition on the high velocity impact response of aluminium alloy 7075 targets have been determined. Both experimental and numerical studies were conducted using a 7.62 mm hard steel core projectile. The numerical simulation used a 7.62 mm Ogival nose shaped projectile with a target thickness ranging from 20 to 26 mm. High velocity impact experiments on T651 and solution treated targets, with rolled plate thicknesses ranging from 21 to 25 mm were… Show more

“…Damage criteria are also crucial for obtaining reliable numerical ballistic results [22]. It was discovered that the correlation between experimental and numerical ballistic impact analysis of two distinct heat treated AA7075 aluminium alloy targets was stronger [23][24][25]. The vast majority of research on AA5083 targets [8,9] has been conducted using thin sheets and single hits.…”

Comparative analysis of experimental and numerical investigation on multiple projectile impact of AA5083 friction stir welded targets

“…Damage criteria are also crucial for obtaining reliable numerical ballistic results [22]. It was discovered that the correlation between experimental and numerical ballistic impact analysis of two distinct heat treated AA7075 aluminium alloy targets was stronger [23][24][25]. The vast majority of research on AA5083 targets [8,9] has been conducted using thin sheets and single hits.…”

Comparative analysis of experimental and numerical investigation on multiple projectile impact of AA5083 friction stir welded targets