Strategies for manipulating shock waves using metallurgical metamaterials

Recent research has shown the potential for exploiting volume reduction during phase transformations to manipulate shock waves. Volume-changing phase transformation in metals can be described as metastable crushing at the atomic scale, which can reverse transform upon unloading, is stable for finite...

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Hauptverfasser:	Fagan, Brian, Bennion, Jonathan, Magagnosc, Daniel, Field, Daniel, Turnage, Scott, Williams, Cyril, Jenkins, Timothy, Lloyd, Jeffrey
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Composition Configurations Iron Laminates Metamaterials Phase transitions Shock waves Wave dispersion
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creator	Fagan, Brian Bennion, Jonathan Magagnosc, Daniel Field, Daniel Turnage, Scott Williams, Cyril Jenkins, Timothy Lloyd, Jeffrey
description	Recent research has shown the potential for exploiting volume reduction during phase transformations to manipulate shock waves. Volume-changing phase transformation in metals can be described as metastable crushing at the atomic scale, which can reverse transform upon unloading, is stable for finite-amplitude shocks, and occurs on the nanosecond time scale. Modifying the composition alters the transformation pressure. By constructing a sample with a gradient in composition, shock wave behavior can be controlled. Through a finite element framework, we explored how Fe-xMn laminates with spatially varying composition can be used to achieve shock wave manipulation in 1-d shock waves. Specifically, we examined configurations for a Fe-xMn target which could disperse or focus a shock wave. Configurations for a Fe-xMn flyer which could induce spall at different locations was also investigated.
doi_str_mv	10.1063/12.0028530
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Through a finite element framework, we explored how Fe-xMn laminates with spatially varying composition can be used to achieve shock wave manipulation in 1-d shock waves. Specifically, we examined configurations for a Fe-xMn target which could disperse or focus a shock wave. 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subjects	Composition Configurations Iron Laminates Metamaterials Phase transitions Shock waves Wave dispersion
title	Strategies for manipulating shock waves using metallurgical metamaterials
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