How semi-coherent b.c.c. hydride interfacial interactions affect the inelastic deformation and fracture behavior of h.c.p. zirconium alloys-Reference-Cited by-同舟云学术

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How semi-coherent b.c.c. hydride interfacial interactions affect the inelastic deformation and fracture behavior of h.c.p. zirconium alloys

Published:2019-03 Issue: Volume:130 Page:1-8
ISSN:0167-6636
Container-title:Mechanics of Materials
language:en
Short-container-title:Mechanics of Materials

Author:

Ziaei S.,Zikry M.A.

Funder

U.S. Department of Energy

Publisher

Elsevier BV

Subject

Mechanics of Materials,General Materials Science,Instrumentation

Reference47 articles.

1. Cladding tube deformation test for stress reorientation of hydrides;Alam,2009

2. Hydride embrittlement and irradiation effects on the hoop mechanical properties of pressurized water reactor (PWR) and boiling-water reactor (BWR) ZIRCALOY cladding tubes: Part I. Hydride embrittlement in stress-relieved, annealed, and recrystallized ZIRCALOYs at 20 °C and 300 °C

3. Hydride embrittlement and irradiation effects on the hoop mechanical properties of pressurized water reactor (PWR) and boiling-water reactor (BWR) ZIRCALOY cladding tubes: Part III. Mechanical behavior of hydride in stress-relieved annealed and recrystallized ZIRCALOYs at 20 °C and 300 °C

4. Hydride embrittlement in Zircaloy-4 plate: part I. Influence of microstructure on the hydride embrittlement in Zircaloy-4 at 20 °C and 350 °C;Bai;Metall. Mater. Trans. A,1994

5. Mechanical properties of metal hydrides;Birnbaum;J. Less Common Met.,1984

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1. The micromechanics of fracture of zirconium hydrides;Acta Materialia;2024-09

2. Micro-mechanisms of the ductile-to-brittle transition in hydrogenated zirconium alloys: A review and a comparison analysis of experimental data and theoretical approaches;Engineering Failure Analysis;2024-05

3. Hydride-enhanced strain localization in zirconium alloy: A study by crystal plasticity finite element method;International Journal of Plasticity;2024-03

4. Dynamic competition between coarsening mechanisms of Ti2Cu phase during thermal cycling;Materials Science and Engineering: A;2023-10

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