Baxter Barnes scite author profile

Electrochemical changes were successfully monitored through the coupling of external loading, electrochemical impedance spectroscopy (EIS), and distribution of relaxation times (DRT) analysis. The development of the testing methods allows for detailed observation of changes due to mechanical loading and distinguishes responses between different cell geometries. Comparison of the force versus displacement, voltage versus displacement, and distribution of relaxation times plots to the different cell geometries display failure modes specific to geometry as well as the impact of different loading profiles. Numerical modeling confirmed the movement within individual cells and predicted locations with the most deformation based on the external loading condition applied. The results gathered from combining mechanical loading, electrochemical response, and numerical modeling, yield a viable approach to establishing an improved understanding of the effects of mechanical loading on the electrochemical response of multiple battery geometries and the methods herein may be extensible to additional battery chemistries.

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Direct Energy Deposition Grcop-42 Copper Alloy: Characterization and Size Effects

Demeneghi¹,

Barnes²,

Gradl³

et al. 2022

SSRN Journal

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Baxter Barnes

Designing additively manufactured lattice structures based on deformation mechanisms

Quasi-static and dynamic behavior of additively manufactured lattice structures with hybrid topologies

Size effects on microstructure and mechanical properties of additively manufactured copper–chromium–niobium alloy

Electrochemical Response of Alkaline Batteries Subject to Quasi-Static and Dynamic Loading

Direct Energy Deposition Grcop-42 Copper Alloy: Characterization and Size Effects

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