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Yongqiang Wang

Government of the United States of America - MST-8 Materials Science in Radiation and Dynamics Extremes Group

Los Alamos, NM 87545

United States

SCHOLARLY PAPERS

2

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204

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Scholarly Papers (2)

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1.

In Situ Micro-Pillar Compression to Examine Radiation-Induced Hardening Mechanisms of FeCrAl Alloys

Number of pages: 29 Posted: 01 Jun 2020
Yuchi Cui, Eda Aydogan, Jonathan G. Gigax, Stuart A. Maloy, Yongqiang Wang, Amit Misra and Stuart A. Maloy
Government of the United States of America - Center for Integrated Nanotechnologies, Government of the United States of America - MST-8 Materials Science in Radiation and Dynamics Extremes Group, Government of the United States of America - Center for Integrated Nanotechnologies, Government of the United States of America - MST-8 Materials Science in Radiation and Dynamics Extremes Group, Government of the United States of America - MST-8 Materials Science in Radiation and Dynamics Extremes Group, University of Michigan at Ann Arbor - Department of Materials Science and Engineering and Government of the United States of America - MST-8 Materials Science in Radiation and Dynamics Extremes Group
Downloads 128 (565,439)

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In situ micro-pillar compression, FeCrAl C26M alloys, ion irradiation, hardening mechanisms

2.

Potential Benefit of Amorphization in the Retention of Gaseous Species in Irradiated Pyrochlores

Number of pages: 21 Posted: 01 Nov 2018
Terry G. Holesinger, James A. Valdez, Matthew T. Janish, Yongqiang Wang and Blas Pedro Uberuaga
Government of the United States of America - MST-16 Nuclear Materials Science Group, Government of the United States of America - MST-8 Materials Science in Radiation and Dynamics Extremes Group, Government of the United States of America - MST-16 Nuclear Materials Science Group, Government of the United States of America - MST-8 Materials Science in Radiation and Dynamics Extremes Group and Los Alamos National Laboratory
Downloads 76 (830,555)

Abstract:

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radiation effects, pyrochlore, amorphization, transmission electron microscopy, gas retention