J. I. Martinez | Researchain

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Featured researches published by J. I. Martinez.

Journal of Dynamic Behavior of Materials | 2017

Estimation of Metal Strength at Very High Rates Using Free-Surface Richtmyer–Meshkov Instabilities

Michael B. Prime; William T. Buttler; Miles A. Buechler; Nicholas A. Denissen; Mark A. Kenamond; F. G. Mariam; J. I. Martinez; D. Oro; D. W. Schmidt; Joseph B. Stone; D. Tupa; Wendy Vogan-McNeil

Recently, Richtmyer–Meshkov Instabilities (RMI) have been proposed for studying the average strength at strain rates up to at least 107/s. RMI experiments involve shocking a metal interface that has initial sinusoidal perturbations. The perturbations invert and grow subsequent to shock and may arrest because of strength effects. In this work we present new RMI experiments and data on a copper target that had five regions with different perturbation amplitudes on the free surface opposite the shock. We estimate the high-rate, low-pressure copper strength by comparing experimental data with Lagrangian numerical simulations. From a detailed computational study we find that mesh convergence must be carefully addressed to accurately compare with experiments, and numerical viscosity has a strong influence on convergence. We also find that modeling the as-built perturbation geometry rather than the nominal makes a significant difference. Because of the confounding effect of tensile damage on total spike growth, which has previously been used as the metric for estimating strength, we instead use a new strength metric: the peak velocity during spike growth. This new metric also allows us to analyze a broader set of experimental results that are sensitive to strength because some larger initial perturbations grow unstably to failure and so do not have a finite total spike growth.

Journal of Dynamic Behavior of Materials | 2017

Ejecta Transport, Breakup and Conversion

William T. Buttler; S. K. Lamoreaux; R. K. Schulze; J. D. Schwarzkopf; J. C. Cooley; M. Grover; J. E. Hammerberg; B. M. La Lone; A. Llobet; R. Manzanares; J. I. Martinez; D. W. Schmidt; D. G. Sheppard; G. D. Stevens; W. D. Turley; L. R. Veeser

We report experimental results from an initial study of reactive and nonreactive metal fragments—ejecta—transporting in vacuum, and in reactive and nonreactive gases. We postulate that reactive metal fragments ejected into a reactive gas, such as H

Fusion Science and Technology | 2013

Utilizing Conventional Machining Tools with Customized Machining Techniques to Manufacture Multifaceted Targets

Kimberly A. Obrey; Franklin Fierro; J. I. Martinez; Randall B. Randolph; D. W. Schmidt

Review of Scientific Instruments | 2015

Simultaneous neutron and x-ray imaging of inertial confinement fusion experiments along a single line of sight at Omega

C. R. Danly; T. H. Day; D. N. Fittinghoff; H. W. Herrmann; N. Izumi; Y. Kim; J. I. Martinez; F. E. Merrill; D. W. Schmidt; Raspberry Simpson; Petr L. Volegov; C. H. Wilde

Journal of Dynamic Behavior of Materials | 2017

Ejecta Directions and Size Information from Recent “Sweeper Wave” Data in Sn

W. M. Wood; William T. Buttler; V. A. Thomas; W. D. Turley; G. D. Stevens; M. Grover; D. W. Schmidt; J. I. Martinez

Review of Scientific Instruments | 2016

Design of the polar neutron-imaging aperture for use at the National Ignition Facility

Valerie E. Fatherley; D. A. Barker; D. N. Fittinghoff; Robin L. Hibbard; J. I. Martinez; F. E. Merrill; John A. Oertel; D. W. Schmidt; Petr L. Volegov; C. H. Wilde

2, will break up into smaller fragments in situations where they are otherwise hydrodynamically stable in a nonreactive gas such as He. To evaluate the hypothesis we machined periodic perturbations onto thin Ce and Zn coupons and then explosively shocked them to eject hot, micron-scale fragments from the perturbations. The ejecta masses were diagnosed with piezoelectric pressure transducers, and their transport in H

Proceedings of SPIE | 2016

Design of the aperture array for neutron imaging from the north pole of the National Ignition Facility

Valerie E. Fatherley; D. A. Barker; D. N. Fittinghoff; Robin L. Hibbard; J. I. Martinez; F. E. Merrill; John A. Oertel; D. W. Schmidt; Petr L. Volegov; C. H. Wilde

Review of Scientific Instruments | 2018

Aperture design for the third neutron and first gamma-ray imaging systems for the National Ignition Facility

Valerie E. Fatherley; D. N. Fittinghoff; Robin L. Hibbard; H. J. Jorgenson; J. I. Martinez; John A. Oertel; D. W. Schmidt; C. Waltz; C. H. Wilde; Petr L. Volegov

Target Diagnostics Physics and Engineering for Inertial Confinement Fusion VI | 2017

System design of the NIF Neutron Imaging System North Pole

Valerie E. Fatherley; Jay J. Ayers; David A. Barker; C. R. Danly; D. N. Fittinghoff; Lynne Goodwin; H. W. Herrmann; Robin L. Hibbard; Justin Jorgenson; J. I. Martinez; F. E. Merrill; John A. Oertel; D. W. Schmidt; Nick Shingleton; Michael Vitalich; Petr L. Volegov; C. H. Wilde; Steve Batha

Fusion Science and Technology | 2016