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Using microprojectiles to study the ballistic limit of polymer thin films

Shawn H. Chen, Amanda J. Souna, Christopher L. Soles, Stephan J. Stranick, Edwin P. Chan

2020Soft Matter23 citationsDOIOpen Access PDF

Abstract

The dynamic impact between a particle and a planar material is important in many high impact events, and there is a growing need to characterize the mechanical properties of light-weight polymeric materials at dynamic loading conditions. Here, a laser-induced projectile impact test (LIPIT) is employed to investigate the ballistic limit (V0) and materials properties at impact velocities ranging from 40 m s-1 to 70 m s-1. An analytical expression describing the various energy dissipation mechanisms is established to estimate the yield stress and elasticity for polycarbonate thin films. This measurement approach demonstrates the utility of using low sample mass for discovery of materials for impact mitigation, as well as high-throughput mechanical characterization at dynamic loading rates.

Topics & Concepts

ProjectileMaterials scienceDissipationThin filmPolycarbonateCharacterization (materials science)Composite materialPolymerNanotechnologyPhysicsThermodynamicsMetallurgyHigh-Velocity Impact and Material BehaviorIon-surface interactions and analysisEnergetic Materials and Combustion
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