Shear strength measurements and hydrostatic compression of rhenium diboride under high pressures-Reference-Cited by-同舟云学术

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Shear strength measurements and hydrostatic compression of rhenium diboride under high pressures

Published:2021-05-28 Issue:20 Volume:129 Page:205901
ISSN:0021-8979
Container-title:Journal of Applied Physics
language:en
Short-container-title:Journal of Applied Physics

Author:

Burrage Kaleb C.¹^ORCID,Park Changyong²^ORCID,Vohra Yogesh K.¹^ORCID

Affiliation:

1. Department of Physics, University of Alabama at Birmingham (UAB), Birmingham, Alabama 35294, USA

2. High Pressure Collaborative Access Team (HPCAT), X-ray Science Division, Argonne National Laboratory, Argonne, Illinois 60439, USA

Funder

National Science Foundation

U.S. Department of Energy

Publisher

AIP Publishing

Subject

General Physics and Astronomy

Link

https://aip.scitation.org/doi/am-pdf/10.1063/5.0050057

Reference18 articles.

1. Electronic, dynamical, and thermal properties of ultra-incompressible superhard rhenium diboride: A combined first-principles and neutron scattering study

2. Experimental and Computational Studies on Superhard Material Rhenium Diboride under Ultrahigh Pressures

3. Transition Metal Borides: Superhard versus Ultra-incompressible

4. Synthesis of Binary Transition Metal Nitrides, Carbides and Borides from the Elements in the Laser-Heated Diamond Anvil Cell and Their Structure-Property Relations

5. Thermoelastic properties of ReB2 at high pressures and temperatures and comparison with Pt, Os, and Re

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1. Strength, plasticity, and spin transition of Fe-N compounds in planetary cores;Physics of the Earth and Planetary Interiors;2024-10

2. Overview of HPCAT and capabilities for studying minerals and various other materials at high-pressure conditions;Physics and Chemistry of Minerals;2022-08-15

3. High-Entropy Borides under Extreme Environment of Pressures and Temperatures;Materials;2022-04-30

4. Experimental and Computational Studies of Compression and Deformation Behavior of Hafnium Diboride to 208 GPa;Materials;2022-04-09

5. Theoretical and experimental studies of compression and shear deformation behavior of Osmium to 280 GPa;Engineering Research Express;2021-11-11

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