Huadong Xu scite author profile

Huadong Xu

3Publications

0Citation Statements Received

42Citation Statements Given

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Harbin Institute of Technology

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The Hypervelocity Impact Behavior and Energy Absorption Evaluation of Fabric

Cui

et al. 2023

Polymers

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In this work, the mechanical behavior and energy absorption characteristics of flexible fabric under hypervelocity impact (HVI) were investigated. Basalt fabric, ultra-high molecular weight polyethylene (UHMWPE) fabric, and aluminum alloy (Al) plate were chosen to be the sample materials for their excellent mechanical properties and applicative prospect in spacecraft shielding. HVI experiments had been conducted with the help of a two-stage light-gas gun facility, wherein Al projectile with 3.97 mm diameter was launched at velocities in the range 4.1~4.3 km/s. Impact conditions and areal density were kept constant for all targets. The microstructural damage morphology of fiber post-impact was characterized using a scanning electron microscope (SEM). Analysis results show that a brittle fracture occurred for Basalt fiber during HVI. On the contrary, the ductile fractures with large-scale plastic deformation and apparent thermal softening/melting of the material had happened on the UHMWPE fiber when subjected to a projectile impact. According to the HVI shielding performance and microstructural damage analysis results, it can be inferred that ductile fractures and thermal softening/melting of the material were the prevailing energy absorption behaviors of UHMWPE fabric, which leads to absorbing more impact energy than Basalt fabric and eventually, contributes the superior shielding performance.

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Simulations of the interaction between fiber bundles/yarns and the energy absorption of the fabric under hypervelocity impact

Xu¹,

Jia²,

Xu³

et al. 2023

International Journal of Impact Engineering

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A Meso-Scale Fem-Sph Adaptive Model and Simulations of Fabric Under Hypervelocity Impact

Zhou

et al. 2023

Preprint

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Huadong Xu

The Hypervelocity Impact Behavior and Energy Absorption Evaluation of Fabric

Simulations of the interaction between fiber bundles/yarns and the energy absorption of the fabric under hypervelocity impact

A Meso-Scale Fem-Sph Adaptive Model and Simulations of Fabric Under Hypervelocity Impact

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