Yaping Tan scite author profile

In the military field, determining how to increase the hole-expanding ability of shaped charge warheads is a key and difficult issue with respect to warhead development. Amorphous alloys have grains or grain boundaries, with unique mechanical properties. Zr41.2Ti13.8Cu12.5Ni10Be22.5 can be used as the liner material of shaped charges, resulting in high-speed particle flows that differ from those of traditionally shaped charges. In this paper, based on the analysis of the mechanical response characteristics of Zr41.2Ti13.8Cu12.5Ni10Be22.5 and its fracture morphology under impact, combined with the formation theory of shaped charge jets, a semi-empirical formula is derived to calculate the velocity of non-cohesive high-speed particle flow considering the elastic strain energy loss. Additionally, the reliability of the proposed theoretical model is verified through experiments. The penetration process of Zr-based amorphous alloy high-speed particle flow into a concrete target is theoretically analyzed, and the penetration stages of the high-speed particle flow into the target are clearly distinguished. Combined with the penetration theory of shaped charge particle jets, a high-speed particle flow penetration model is proposed, and a pore expansion model is established through an energy method. The experimentally obtained data on depth of penetration are in agreement with the theoretical calculation results.

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Study on the Effectiveness Test of Bacterial Activity in the Antibacterial Property Vibration Test of Antibacterial Textiles

Xia¹,

Wang²,

Lu³

et al. 2019

j biobased mat bioenergy

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Theoretical study on hole evolution of inclination finite thickness metal plate impacted by shaped charge jet

Tan

Huang

et al. 2022

International Journal of Impact Engineering

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Effect of Liquid Parameters on Protective Performance of a Liquid Composite Target Subjected to Jet Impact

Tan

Jia

Huang

et al. 2019

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In order to study the influence of liquid parameters on the protective performance of liquid composite targets (LCT), based on the theory of interaction between the jet and the LCT, three dimensionless numbers - C, G, and V - are obtained by dimensional analysis in this paper. These 3 dimensionless parameters represent the compressibility, inertia, and viscosity of the liquid, respectively. The empirical formula, P/H = 0.346C1.251G−0.7120V0.036, was obtained by fitting experimental data of the static depth of penetration (DOP) experiment which can predict the residual depth of penetration (RDOP) of the jet penetrating the LCT. It turns out that the 2 dimensionless parameters - C and G - which characterize the compressibility and inertia of the liquid, plays a decisive role in the protection performance of the LCT, while the influence of liquid viscosity is small. In addition, according to the research results of this paper, the protective performance of the LCT can be improved by selecting a liquid with high sound velocity, high viscosity, and low density.

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Yaping Tan

Influence of strongly-constrained liquid-filled composite armor on stability of incoming shaped charge jet during eccentric penetration

Formation and Penetration Properties of a Shaped Charge with Zr41.2Ti13.8Cu12.5Ni10Be22.5 Liner

Study on the Effectiveness Test of Bacterial Activity in the Antibacterial Property Vibration Test of Antibacterial Textiles

Theoretical study on hole evolution of inclination finite thickness metal plate impacted by shaped charge jet

Effect of Liquid Parameters on Protective Performance of a Liquid Composite Target Subjected to Jet Impact

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