SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2013560505> ?p ?o ?g. }

Showing items 1 to 100 of ±152 with 100 items per page.

W2013560505 endingPage "2263" @default.
W2013560505 startingPage "2251" @default.
W2013560505 abstract "Low-load nanoindentation can be used to assess not only the plastic yield point, but the distribution of yield points in a material. This paper reviews measurements of the so-called nanoscale strength distribution (NSD) on two classes of materials: crystals and metallic glasses. In each case, the yield point has a significant spread (10–50% of the mean normalized stress), but the origins of the distribution are shown to be very different in the two materials classes. In crystalline materials the NSD can arise from thermal fluctuations and is attended by significant rate and temperature dependence. In metallic glasses well below their glass-transition temperature, the NSD is reflective of fluctuations in the sampled structure and is not very sensitive to rate or temperature. Computer simulations using shear transformation zone dynamics are used to separate the effects of thermal and structural fluctuations in metallic glasses, and support the latter as dominating the NSD of those materials at low temperatures. Finally, the role of the NSD as a window on structural changes due to annealing or prior deformation is discussed as a direction for future research on metallic glasses in particular." @default.
W2013560505 created "2016-06-24" @default.
W2013560505 creator A5029449931 @default.
W2013560505 creator A5040339891 @default.
W2013560505 creator A5055304339 @default.
W2013560505 creator A5085734881 @default.
W2013560505 date "2010-12-01" @default.
W2013560505 modified "2023-09-23" @default.
W2013560505 title "Nanoscale strength distribution in amorphous versus crystalline metals" @default.
W2013560505 cites W1503569915 @default.
W2013560505 cites W1618864977 @default.
W2013560505 cites W1679725199 @default.
W2013560505 cites W1965157313 @default.
W2013560505 cites W1966503123 @default.
W2013560505 cites W1969235376 @default.
W2013560505 cites W1969931439 @default.
W2013560505 cites W1979899574 @default.
W2013560505 cites W1985801044 @default.
W2013560505 cites W1986732802 @default.
W2013560505 cites W1987626178 @default.
W2013560505 cites W1988278482 @default.
W2013560505 cites W1989390051 @default.
W2013560505 cites W1991147782 @default.
W2013560505 cites W1992598839 @default.
W2013560505 cites W1993444406 @default.
W2013560505 cites W1996999697 @default.
W2013560505 cites W1997004194 @default.
W2013560505 cites W1998227636 @default.
W2013560505 cites W2000033747 @default.
W2013560505 cites W2001047008 @default.
W2013560505 cites W2004704657 @default.
W2013560505 cites W2005322873 @default.
W2013560505 cites W2007241862 @default.
W2013560505 cites W2009645752 @default.
W2013560505 cites W2010606050 @default.
W2013560505 cites W2011240043 @default.
W2013560505 cites W2012756845 @default.
W2013560505 cites W2015339364 @default.
W2013560505 cites W2016755686 @default.
W2013560505 cites W2017882939 @default.
W2013560505 cites W2020362559 @default.
W2013560505 cites W2024977976 @default.
W2013560505 cites W2025863381 @default.
W2013560505 cites W2035488023 @default.
W2013560505 cites W2039123511 @default.
W2013560505 cites W2040443137 @default.
W2013560505 cites W2041428267 @default.
W2013560505 cites W2043447699 @default.
W2013560505 cites W2050923364 @default.
W2013560505 cites W2051633849 @default.
W2013560505 cites W2054429080 @default.
W2013560505 cites W2056735400 @default.
W2013560505 cites W2058701681 @default.
W2013560505 cites W2058980281 @default.
W2013560505 cites W2059054161 @default.
W2013560505 cites W2062676716 @default.
W2013560505 cites W2067621075 @default.
W2013560505 cites W2073112246 @default.
W2013560505 cites W2075907950 @default.
W2013560505 cites W2077945027 @default.
W2013560505 cites W2078531863 @default.
W2013560505 cites W2083088601 @default.
W2013560505 cites W2091149594 @default.
W2013560505 cites W2095334472 @default.
W2013560505 cites W2118142066 @default.
W2013560505 cites W2124855327 @default.
W2013560505 cites W2126646619 @default.
W2013560505 cites W2126838957 @default.
W2013560505 cites W2130036096 @default.
W2013560505 cites W2134275902 @default.
W2013560505 cites W2134953227 @default.
W2013560505 cites W2147123976 @default.
W2013560505 cites W2152047278 @default.
W2013560505 cites W2157448795 @default.
W2013560505 cites W2159843807 @default.
W2013560505 cites W2246419839 @default.
W2013560505 cites W3023488820 @default.
W2013560505 cites W4206602012 @default.
W2013560505 doi "https://doi.org/10.1557/jmr.2010.0299" @default.
W2013560505 hasPublicationYear "2010" @default.
W2013560505 type Work @default.
W2013560505 sameAs 2013560505 @default.
W2013560505 citedByCount "57" @default.
W2013560505 countsByYear W20135605052012 @default.
W2013560505 countsByYear W20135605052013 @default.
W2013560505 countsByYear W20135605052014 @default.
W2013560505 countsByYear W20135605052015 @default.
W2013560505 countsByYear W20135605052016 @default.
W2013560505 countsByYear W20135605052017 @default.
W2013560505 countsByYear W20135605052018 @default.
W2013560505 countsByYear W20135605052019 @default.
W2013560505 countsByYear W20135605052020 @default.
W2013560505 countsByYear W20135605052021 @default.
W2013560505 countsByYear W20135605052023 @default.
W2013560505 crossrefType "journal-article" @default.
W2013560505 hasAuthorship W2013560505A5029449931 @default.
W2013560505 hasAuthorship W2013560505A5040339891 @default.
W2013560505 hasAuthorship W2013560505A5055304339 @default.