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Effect of hardfaced interlayer thickness on ballistic performance of armour steel welds
Highlights ► Earlier efforts shows dubious feat on ballistic resistance of armour steel joints. ► No open literature available on complete intact of the armour steel weld metal. ► The effect of buttering layer/hardfaced interlayer thickness have been evaluated. ► The successful stop of the bullet at weld metal. ► The multi-layered weld metal successfully stopped the projectile.
Abstract Due to weld thermal cycles and under matching fillers, the armour steel welded joints showed poor ballistic performance compared to the base metal. An attempt was made to enhance the ballistic performance of armour steel welded joints by depositing hardfaced (HF) interlayer between austenitic stainless steel weld metal. Though this method yielded marginal improvements in ballistic performance, cracks were observed in between base metal and HF layers. A novel method was proposed by the same authors to eliminate these cracks by depositing a soft buttering layer using austenitic stainless steel (ASS) consumable in between base metal and HF layer shows additional improvements on ballistic performance. Buttering layer enhanced the ballistic immunity by keeping the weld layer intact successfully at the time of impact, but the bullet was pierced through. In this investigation, an attempt has been made to stop the bullet completely by varying HF interlayer thickness. This paper reveals the effect HF layer thickness on ballistic performance of shielded metal arc welded armour steel welds. A HF interlayer thickness of 0.3 times, the plate thickness is found to be optimum from this investigation.
Effect of hardfaced interlayer thickness on ballistic performance of armour steel welds
Highlights ► Earlier efforts shows dubious feat on ballistic resistance of armour steel joints. ► No open literature available on complete intact of the armour steel weld metal. ► The effect of buttering layer/hardfaced interlayer thickness have been evaluated. ► The successful stop of the bullet at weld metal. ► The multi-layered weld metal successfully stopped the projectile.
Abstract Due to weld thermal cycles and under matching fillers, the armour steel welded joints showed poor ballistic performance compared to the base metal. An attempt was made to enhance the ballistic performance of armour steel welded joints by depositing hardfaced (HF) interlayer between austenitic stainless steel weld metal. Though this method yielded marginal improvements in ballistic performance, cracks were observed in between base metal and HF layers. A novel method was proposed by the same authors to eliminate these cracks by depositing a soft buttering layer using austenitic stainless steel (ASS) consumable in between base metal and HF layer shows additional improvements on ballistic performance. Buttering layer enhanced the ballistic immunity by keeping the weld layer intact successfully at the time of impact, but the bullet was pierced through. In this investigation, an attempt has been made to stop the bullet completely by varying HF interlayer thickness. This paper reveals the effect HF layer thickness on ballistic performance of shielded metal arc welded armour steel welds. A HF interlayer thickness of 0.3 times, the plate thickness is found to be optimum from this investigation.
Effect of hardfaced interlayer thickness on ballistic performance of armour steel welds
Balakrishnan, M. (author) / Balasubramanian, V. (author) / Madhusudhan Reddy, G. (author)
2012-06-06
10 pages
Article (Journal)
Electronic Resource
English
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