Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Demkowicz, M.J.
and
Thilly, L.
2011.
Structure, shear resistance and interaction with point defects of interfaces in Cu–Nb nanocomposites synthesized by severe plastic deformation.
Acta Materialia,
Vol. 59,
Issue. 20,
p.
7744.
Lee, S.-B.
LeDonne, J.E.
Lim, S.C.V.
Beyerlein, I.J.
and
Rollett, A.D.
2012.
The heterophase interface character distribution of physical vapor-deposited and accumulative roll-bonded Cu–Nb multilayer composites.
Acta Materialia,
Vol. 60,
Issue. 4,
p.
1747.
Mara, N. A.
Beyerlein, I. J.
Carpenter, J. S.
and
Wang, J.
2012.
Interfacially Driven Deformation Twinning in Bulk Ag-Cu Composites.
JOM,
Vol. 64,
Issue. 10,
p.
1218.
Xu, Donghua
Wirth, Brian D.
Li, Meimei
and
Kirk, Marquis A.
2012.
Defect microstructural evolution in ion irradiated metallic nanofoils: Kinetic Monte Carlo simulation versus cluster dynamics modeling and in situ transmission electron microscopy experiments.
Applied Physics Letters,
Vol. 101,
Issue. 10,
Zhang, X.
Fu, E. G.
Li, Nan
Misra, A.
Wang, Y.-Q.
Shao, L.
and
Wang, H.
2012.
Design of Radiation Tolerant Nanostructured Metallic Multilayers.
Journal of Engineering Materials and Technology,
Vol. 134,
Issue. 4,
Martínez, Enrique
and
Caro, Alfredo
2012.
Atomistic modeling of long-term evolution of twist boundaries under vacancy supersaturation.
Physical Review B,
Vol. 86,
Issue. 21,
Lokesh, R.
Bellon, P.
and
Averback, R.S.
2012.
Nanostructuring of Cu–TiB2 induced by ion irradiation.
Journal of Nuclear Materials,
Vol. 423,
Issue. 1-3,
p.
9.
Demkowicz, M.J.
Misra, A.
and
Caro, A.
2012.
The role of interface structure in controlling high helium concentrations.
Current Opinion in Solid State and Materials Science,
Vol. 16,
Issue. 3,
p.
101.
Tschopp, M. A.
Solanki, K. N.
Gao, F.
Sun, X.
Khaleel, M. A.
and
Horstemeyer, M. F.
2012.
Probing grain boundary sink strength at the nanoscale: Energetics and length scales of vacancy and interstitial absorption by grain boundaries inα-Fe.
Physical Review B,
Vol. 85,
Issue. 6,
Liu Wang
Wu Qi-Qi
Chen Shun-Li
Zhu Jing-Jun
An Zhu
and
Wang Yuan
2012.
Helium effect on the stability of the interface of Cu/W nanomultilayer.
Acta Physica Sinica,
Vol. 61,
Issue. 17,
p.
176802.
Martínez, Enrique
Hirth, John P.
Nastasi, Michael
and
Caro, Alfredo
2012.
Structure of a 2∘(010) Cu twist boundary interface and the segregation of vacancies and He atoms.
Physical Review B,
Vol. 85,
Issue. 6,
Guo, Qiang
and
Greer, Julia R.
2012.
Compressive properties of interface-containing Cu–Fe nano-pillars.
Scripta Materialia,
Vol. 66,
Issue. 5,
p.
272.
Guo, Qiang
Landau, Peri
Hosemann, Peter
Wang, Yongqiang
and
Greer, Julia R.
2013.
Helium Implantation Effects on the Compressive Response of Cu Nanopillars.
Small,
Vol. 9,
Issue. 5,
p.
691.
Anderoglu, O.
Zhou, M.J.
Zhang, J.
Wang, Y.Q.
Maloy, S.A.
Baldwin, J.K.
and
Misra, A.
2013.
He+ ion irradiation response of Fe–TiO2 multilayers.
Journal of Nuclear Materials,
Vol. 435,
Issue. 1-3,
p.
96.
Yu, K.Y.
Liu, Y.
Fu, E.G.
Wang, Y.Q.
Myers, M.T.
Wang, H.
Shao, L.
and
Zhang, X.
2013.
Comparisons of radiation damage in He ion and proton irradiated immiscible Ag/Ni nanolayers.
Journal of Nuclear Materials,
Vol. 440,
Issue. 1-3,
p.
310.
Zhang, Liang
and
Demkowicz, Michael J.
2013.
Morphological stability of Cu-Nb nanocomposites under high-energy collision cascades.
Applied Physics Letters,
Vol. 103,
Issue. 6,
Li, N.
Hattar, K.
and
Misra, A.
2013.
In situ probing of the evolution of irradiation-induced defects in copper.
Journal of Nuclear Materials,
Vol. 439,
Issue. 1-3,
p.
185.
Vepřek, Stan
Heijman, Maritza G.J. Vepřek‐
and
Holubář, Pavel
2013.
Ceramics Science and Technology.
p.
207.
Yu, K.Y.
Sun, C.
Chen, Y.
Liu, Y.
Wang, H.
Kirk, M.A.
Li, M.
and
Zhang, X.
2013.
Superior tolerance of Ag/Ni multilayers against Kr ion irradiation: an in situ study.
Philosophical Magazine,
Vol. 93,
Issue. 26,
p.
3547.
Zhang, Liang
Martinez, Enrique
Caro, Alfredo
Liu, Xiang-Yang
and
Demkowicz, Michael J
2013.
Liquid-phase thermodynamics and structures in the Cu–Nb binary system.
Modelling and Simulation in Materials Science and Engineering,
Vol. 21,
Issue. 2,
p.
025005.