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      Mechanical properties and deformation mechanisms of gradient nanostructured metals and alloys

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          Machine learning for molecular and materials science

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            Ultrahigh strength and high electrical conductivity in copper.

            Methods used to strengthen metals generally also cause a pronounced decrease in electrical conductivity, so that a tradeoff must be made between conductivity and mechanical strength. We synthesized pure copper samples with a high density of nanoscale growth twins. They showed a tensile strength about 10 times higher than that of conventional coarse-grained copper, while retaining an electrical conductivity comparable to that of pure copper. The ultrahigh strength originates from the effective blockage of dislocation motion by numerous coherent twin boundaries that possess an extremely low electrical resistivity, which is not the case for other types of grain boundaries.
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              Indentation size effects in crystalline materials: A law for strain gradient plasticity

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                Author and article information

                Contributors
                Journal
                Nature Reviews Materials
                Nat Rev Mater
                Springer Science and Business Media LLC
                2058-8437
                September 2020
                July 08 2020
                September 2020
                : 5
                : 9
                : 706-723
                Article
                10.1038/s41578-020-0212-2
                818f9684-1f63-4809-b853-fa1765cfa248
                © 2020

                https://www.springer.com/tdm

                https://www.springer.com/tdm

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