FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2034691688> ?p ?o ?g. }

• W2034691688 abstract "Classical molecular dynamics with a semiempirical $N$-body potential is used to study the distribution of local stress in bimetallic ${mathrm{Ni}}_{3}mathrm{Al}$ nanoparticles and in cluster-assembled materials. The materials considered are synthesized with these particles by low-energy deposition at $0.5phantom{rule{0.3em}{0ex}}mathrm{eV}$ per atom and by compaction with an external pressure of $2phantom{rule{0.3em}{0ex}}mathrm{GPa}$, thus featuring different nanostructures. Both are nanoporous, the lowest density being obtained by deposition. Their mechanical response to a uniaxial external load is then studied and deformation mechanisms are identified and are found to be similar in both nanostructures. In the core of isolated clusters, the partial pressures on the nickel and aluminium subsystems are found to differ by several GPa and, as a balance to surface tension, the hydrostatic core pressure is positive and depends on the cluster size. The surface stress is tensile and, because of structural disorder, the partial pressures distributions on Ni and Al at the surface are scattered. When nanostructured systems are formed, strong and highly inhomogeneous shear stress appears, the cluster cores may become tensile, and the interfacial areas remain mainly tensile as well. The partial pressure difference between Ni and Al is somewhat reduced. It is shown that the effect of temperature is to reduce this difference still further and to homogenize the spatial stress distribution. When subjected to a uniaxial stress, both materials display an elastic and a plastic regime. The elastic limit is the lowest for the most porous material and decreases with increasing temperature. Plastic deformation is dominated by both grain boundary sliding and by the enlargement of the open volumes, without evidence for the nucleation of cracks. These open volumes are found to facilitate dislocation activity which is evidenced in grains with sizes as small as two nanometers. This dislocation activity is found to result in the production of stacking faults as well as to the recovery of defects induced by the deposition or by the compaction." @default.
• W2034691688 created "2016-06-24" @default.
• W2034691688 creator A5027208775 @default.
• W2034691688 creator A5045362158 @default.
• W2034691688 creator A5084582659 @default.
• W2034691688 date "2006-03-09" @default.
• W2034691688 modified "2023-09-23" @default.
• W2034691688 title "Stress distribution and mechanical properties of free and assembled<mml:math xmlns:mml=http://www.w3.org/1998/Math/MathML display=inline><mml:mrow><mml:msub><mml:mi mathvariant=normal>Ni</mml:mi><mml:mn>3</mml:mn></mml:msub><mml:mi mathvariant=normal>Al</mml:mi></mml:mrow></mml:math>nanoclusters" @default.
• W2034691688 cites W1947532314 @default.
• W2034691688 cites W1964608350 @default.
• W2034691688 cites W1966105969 @default.
• W2034691688 cites W1970271304 @default.
• W2034691688 cites W1971424012 @default.
• W2034691688 cites W1974270000 @default.
• W2034691688 cites W1982016691 @default.
• W2034691688 cites W1982528737 @default.
• W2034691688 cites W1988568705 @default.
• W2034691688 cites W1988654848 @default.
• W2034691688 cites W1989884161 @default.
• W2034691688 cites W1990507475 @default.
• W2034691688 cites W1991725709 @default.
• W2034691688 cites W1992246384 @default.
• W2034691688 cites W1998399220 @default.
• W2034691688 cites W2001850800 @default.
• W2034691688 cites W2003737935 @default.
• W2034691688 cites W2005310468 @default.
• W2034691688 cites W2006009797 @default.
• W2034691688 cites W2006106581 @default.
• W2034691688 cites W2012774845 @default.
• W2034691688 cites W2015462304 @default.
• W2034691688 cites W2017196167 @default.
• W2034691688 cites W2017829585 @default.
• W2034691688 cites W2020490840 @default.
• W2034691688 cites W2025625972 @default.
• W2034691688 cites W2025931849 @default.
• W2034691688 cites W2026759664 @default.
• W2034691688 cites W2028204093 @default.
• W2034691688 cites W2028496098 @default.
• W2034691688 cites W2030019360 @default.
• W2034691688 cites W2035981975 @default.
• W2034691688 cites W2051409101 @default.
• W2034691688 cites W2060157739 @default.
• W2034691688 cites W2061447862 @default.
• W2034691688 cites W2062901728 @default.
• W2034691688 cites W2066429841 @default.
• W2034691688 cites W2069438435 @default.
• W2034691688 cites W2070826868 @default.
• W2034691688 cites W2081040582 @default.
• W2034691688 cites W2081693079 @default.
• W2034691688 cites W2081967509 @default.
• W2034691688 cites W2086060010 @default.
• W2034691688 cites W2094828145 @default.
• W2034691688 cites W2098104605 @default.
• W2034691688 cites W2141784244 @default.
• W2034691688 cites W2150357459 @default.
• W2034691688 cites W2164166357 @default.
• W2034691688 cites W2329917748 @default.
• W2034691688 cites W4211149818 @default.
• W2034691688 doi "https://doi.org/10.1103/physrevb.73.094108" @default.
• W2034691688 hasPublicationYear "2006" @default.
• W2034691688 type Work @default.
• W2034691688 sameAs 2034691688 @default.
• W2034691688 citedByCount "13" @default.
• W2034691688 countsByYear W20346916882014 @default.
• W2034691688 countsByYear W20346916882017 @default.
• W2034691688 countsByYear W20346916882019 @default.
• W2034691688 crossrefType "journal-article" @default.
• W2034691688 hasAuthorship W2034691688A5027208775 @default.
• W2034691688 hasAuthorship W2034691688A5045362158 @default.
• W2034691688 hasAuthorship W2034691688A5084582659 @default.
• W2034691688 hasConcept C112950240 @default.
• W2034691688 hasConcept C121332964 @default.
• W2034691688 hasConcept C138885662 @default.
• W2034691688 hasConcept C159985019 @default.
• W2034691688 hasConcept C164866538 @default.
• W2034691688 hasConcept C192562407 @default.
• W2034691688 hasConcept C199360897 @default.
• W2034691688 hasConcept C21036866 @default.
• W2034691688 hasConcept C2910081258 @default.
• W2034691688 hasConcept C41008148 @default.
• W2034691688 hasConcept C41895202 @default.
• W2034691688 hasConcept C97355855 @default.
• W2034691688 hasConceptScore W2034691688C112950240 @default.
• W2034691688 hasConceptScore W2034691688C121332964 @default.
• W2034691688 hasConceptScore W2034691688C138885662 @default.
• W2034691688 hasConceptScore W2034691688C159985019 @default.
• W2034691688 hasConceptScore W2034691688C164866538 @default.
• W2034691688 hasConceptScore W2034691688C192562407 @default.
• W2034691688 hasConceptScore W2034691688C199360897 @default.
• W2034691688 hasConceptScore W2034691688C21036866 @default.
• W2034691688 hasConceptScore W2034691688C2910081258 @default.
• W2034691688 hasConceptScore W2034691688C41008148 @default.
• W2034691688 hasConceptScore W2034691688C41895202 @default.
• W2034691688 hasConceptScore W2034691688C97355855 @default.
• W2034691688 hasIssue "9" @default.
• W2034691688 hasLocation W20346916881 @default.
• W2034691688 hasOpenAccess W2034691688 @default.
• W2034691688 hasPrimaryLocation W20346916881 @default.
• W2034691688 hasRelatedWork W2082293200 @default.
• W2034691688 hasRelatedWork W2089085266 @default.

• next