Characterizing In-Flight Temperature of Shaped Charge Penetrators in CTH-Reference-Cited by-同舟云学术

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Characterizing In-Flight Temperature of Shaped Charge Penetrators in CTH

Published:2017 Issue: Volume:204 Page:375-382
ISSN:1877-7058
Container-title:Procedia Engineering
language:en
Short-container-title:Procedia Engineering

Author:

Sable P.,Helminiak N.S.,Gullerud A.,Harstad E.,Hollenshead J.,Hertel E.S.

Publisher

Elsevier BV

Subject

Applied Mathematics

Reference13 articles.

1. In-Flight Conductivity and Temperature Measurements of Hypervelocity Projectiles;Uhlig;Procedia Engineering,2013

2. Uhlig, W. C. and Hummer, C. R., 2011. In-Flight Measurement of Shaped Charge Jet Conductivity and Temperature. ARL Report ARL-TR-5609.

3. Nierderhaus, J. H. and Uhlig, W. C., 2011. Analysis and validation for shaped charge jet simulations using ALEGRA. SAND Report SAND2011-2819.

4. Electromagnetic diagnostic techniques for hypervelocity projectile detection, velocity measurement, and size characterization: Theoretical concept and first experimental test;Uhlig;Journal of Appl. Phys.,2015

5. Effects of Transition Metal Solutes on the Electrical Resistivity of Copper and Gold Between 4 and 1200 K;Domenicali;Journal of Appl. Phys.,1961

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1. Innovative meshless approach for shaped charges applications;Journal of Physics: Conference Series;2022-01-01

2. Comparative Study of the Dynamic Deformation of Pure Molybdenum at High Strain Rates and High Temperatures;Materials;2021-08-26

3. Deformation and acceleration of Zn and Cu liners under explosive shock loading;International Journal of Impact Engineering;2020-06

4. Effects of equations of state and constitutive models on simulating copper shaped charge jets in ALEGRA;International Journal of Impact Engineering;2020-02

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