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W1964569068 endingPage "231" @default.
W1964569068 startingPage "216" @default.
W1964569068 abstract "We have used magnetron sputtering to deposit magnesium and titanium layers alternately onto a single-crystal silicon substrate with equal individual layer thickness (h, from 2.5 to 200 nm) to form multilayers. We have investigated the mechanical behavior of the multilayers and its dependence on h. Transmission electron microscopy and X-ray diffraction analyses suggest that the multilayers exhibit strong texture with respect to Mg (0 0 0 2) and Ti (0 0 0 2) with an epitaxial growth pattern. Two primary orientation relationships between Ti and Mg have been identified, depending on h. Instrumented nanoindentation and microcompression have been used to examine the hardness/strength and the strain rate sensitivity of the multilayers. Based on nanoindentation, we have found that the strength of these multilayers generally increases as h is decreased. The microcompression measured strength is remarkably higher than that derived from indentation. The Hall–Petch law can be used to interpret the increase in strength at relatively large h (>50 nm), while the confined layer slip model provides a better explanation for the relationship between strength and h at smaller h. We have also attempted to present an in-depth discussion about the applicability of relevant strengthening mechanisms on these hexagonal close-packed/hexagonal close-packed multilayers." @default.
W1964569068 created "2016-06-24" @default.
W1964569068 creator A5018765195 @default.
W1964569068 creator A5028488395 @default.
W1964569068 creator A5048300650 @default.
W1964569068 creator A5054975348 @default.
W1964569068 creator A5068533602 @default.
W1964569068 creator A5076049630 @default.
W1964569068 creator A5077444178 @default.
W1964569068 date "2014-01-01" @default.
W1964569068 modified "2023-09-30" @default.
W1964569068 title "The microstructure and mechanical behavior of Mg/Ti multilayers as a function of individual layer thickness" @default.
W1964569068 cites W131444715 @default.
W1964569068 cites W1518327868 @default.
W1964569068 cites W1573884873 @default.
W1964569068 cites W194130707 @default.
W1964569068 cites W1965411818 @default.
W1964569068 cites W1967903019 @default.
W1964569068 cites W1973872353 @default.
W1964569068 cites W1973903102 @default.
W1964569068 cites W1974039355 @default.
W1964569068 cites W1974463520 @default.
W1964569068 cites W1977537298 @default.
W1964569068 cites W1979239710 @default.
W1964569068 cites W1980092693 @default.
W1964569068 cites W1982181644 @default.
W1964569068 cites W1984991102 @default.
W1964569068 cites W1985743761 @default.
W1964569068 cites W1986623586 @default.
W1964569068 cites W1988194005 @default.
W1964569068 cites W1991742359 @default.
W1964569068 cites W1993254642 @default.
W1964569068 cites W1996238371 @default.
W1964569068 cites W1997598672 @default.
W1964569068 cites W2007486265 @default.
W1964569068 cites W2008415031 @default.
W1964569068 cites W2010710233 @default.
W1964569068 cites W2014426031 @default.
W1964569068 cites W2019643648 @default.
W1964569068 cites W2020880107 @default.
W1964569068 cites W2021935723 @default.
W1964569068 cites W2022794169 @default.
W1964569068 cites W2023053552 @default.
W1964569068 cites W2025317279 @default.
W1964569068 cites W2025963982 @default.
W1964569068 cites W2025988628 @default.
W1964569068 cites W2027931888 @default.
W1964569068 cites W2028877927 @default.
W1964569068 cites W2031807246 @default.
W1964569068 cites W2032440983 @default.
W1964569068 cites W2033616846 @default.
W1964569068 cites W2034029640 @default.
W1964569068 cites W2034842644 @default.
W1964569068 cites W2034929618 @default.
W1964569068 cites W2037656284 @default.
W1964569068 cites W2039043713 @default.
W1964569068 cites W2042783900 @default.
W1964569068 cites W2044158811 @default.
W1964569068 cites W2045771060 @default.
W1964569068 cites W2046717755 @default.
W1964569068 cites W2047616290 @default.
W1964569068 cites W2049964400 @default.
W1964569068 cites W2052111549 @default.
W1964569068 cites W2052557208 @default.
W1964569068 cites W2054105703 @default.
W1964569068 cites W2055861305 @default.
W1964569068 cites W2056034128 @default.
W1964569068 cites W2061874793 @default.
W1964569068 cites W2062538390 @default.
W1964569068 cites W2063315587 @default.
W1964569068 cites W2063852426 @default.
W1964569068 cites W2066211671 @default.
W1964569068 cites W2066515758 @default.
W1964569068 cites W2066990125 @default.
W1964569068 cites W2068819798 @default.
W1964569068 cites W2069296232 @default.
W1964569068 cites W2071984226 @default.
W1964569068 cites W2073094526 @default.
W1964569068 cites W2074062799 @default.
W1964569068 cites W2074599859 @default.
W1964569068 cites W2075192141 @default.
W1964569068 cites W2080099522 @default.
W1964569068 cites W2084763544 @default.
W1964569068 cites W2086933933 @default.
W1964569068 cites W2090921914 @default.
W1964569068 cites W2091974717 @default.
W1964569068 cites W2095130033 @default.
W1964569068 cites W2113247183 @default.
W1964569068 cites W2128551911 @default.
W1964569068 cites W2129251669 @default.
W1964569068 cites W2134938271 @default.
W1964569068 cites W2153703866 @default.
W1964569068 cites W2157314565 @default.
W1964569068 cites W2231685385 @default.
W1964569068 cites W2312965546 @default.
W1964569068 cites W4248875261 @default.
W1964569068 doi "https://doi.org/10.1016/j.actamat.2013.10.032" @default.
W1964569068 hasPublicationYear "2014" @default.