Mechanical Behavior of Additively Manufactured Uranium-6 wt. pct. Niobium | Zendy

Amanda S. Wu | Zendy; M. Wraith | Zendy; S. Burke | Zendy; Abdulbasit Abdulqadir Hamza | Zendy; Donald W. Brown | Zendy; B. Clausen | Zendy; L Hsiung | Zendy; Joseph T. McKeown | Zendy; Rachel Lindvall | Zendy; E. Sedillo | Zendy; N. Teslich | Zendy; Sharon G. Torres | Zendy; D. Urabe | Zendy; D. Carl Freeman | Zendy; Petr Alexander | Zendy; M. R. Iniguez | Zendy; F. J. Ryerson | Zendy; D. S. Ancheta | Zendy; J. P. Lotscher | Zendy; Edward Young | Zendy; Cheryl Evans | Zendy; J.N. Florando | Zendy; G. F. Gallegos | Zendy; M. Margraff | Zendy; C A Hrousis | Zendy; G Campbell | Zendy

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Mechanical Behavior of Additively Manufactured Uranium-6 wt. pct. Niobium

Author(s) -

Amanda S. Wu,

M. Wraith,

S. Burke,

Abdulbasit Abdulqadir Hamza,

Donald W. Brown,

B. Clausen,

L Hsiung,

Joseph T. McKeown,

Rachel Lindvall,

E. Sedillo,

N. Teslich,

Sharon G. Torres,

D. Urabe,

D. Carl Freeman,

Petr Alexander,

M. R. Iniguez,

F. J. Ryerson,

D. S. Ancheta,

J. P. Lotscher,

Edward Young,

Cheryl Evans,

J.N. Florando,

G. F. Gallegos,

M. Margraff,

C A Hrousis,

G Campbell

Publication year - 2017

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - Uncategorized

Resource type - Reports

DOI - 10.2172/1414344

Subject(s) - recrystallization (geology) , materials science , fusion , microstructure , niobium , homogenization (climate) , metallurgy , alloy , thermomechanical processing , impurity , uranium , grain size , chemistry , biodiversity , paleontology , ecology , philosophy , linguistics , organic chemistry , biology

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