SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3194681943> ?p ?o ?g. }

Showing items 1 to 100 of ±182 with 100 items per page.

W3194681943 endingPage "104606" @default.
W3194681943 startingPage "104606" @default.
W3194681943 abstract "A strain gradient void-driven ductile fracture model of single crystals is proposed and applied to simulate crack propagation in single and oligo-crystal specimens. The model is based on a thermodynamical framework for homogenized porous solids unifying and generalizing existing thermodynamical formulations. This porous single crystal ductile fracture model relies on a multi-surface representation of porous crystal plasticity in which the standard Schmid law is enhanced to account for porosity, including void growth and void coalescence mechanisms. A new criterion to detect the onset of void coalescence in porous single crystals is proposed and validated by comparison to porous single crystal unit-cell simulations. This criterion can either be used as an additional yield surface or it can be used to follow the well established Gurson–Tvergaard–Needleman approach based on an effective porosity to model void coalescence. The strain gradient formulation relies on a Lagrange multiplier based relaxation of strain gradient plasticity. Material points simulations are performed in order to depict the elementary features of the porous single crystal ductile fracture model without strain gradient effects. The model is then applied to the simulation of plane strain single crystal specimen loaded in tension up to failure. The regularization ability and convergence with mesh refinement are demonstrated. Finally two- and three-dimensional simulations of ductile fracture of single and oligo-crystal specimens are presented. The significant influence of plastic anisotropy on the crack path, ductility and fracture toughness is highlighted." @default.
W3194681943 created "2021-08-30" @default.
W3194681943 creator A5032259031 @default.
W3194681943 creator A5040247697 @default.
W3194681943 creator A5054773832 @default.
W3194681943 creator A5057521665 @default.
W3194681943 creator A5061056763 @default.
W3194681943 date "2021-11-01" @default.
W3194681943 modified "2023-10-14" @default.
W3194681943 title "A strain gradient plasticity model of porous single crystal ductile fracture" @default.
W3194681943 cites W1968852959 @default.
W3194681943 cites W1971226105 @default.
W3194681943 cites W1974265802 @default.
W3194681943 cites W1976393181 @default.
W3194681943 cites W1976419985 @default.
W3194681943 cites W1977188519 @default.
W3194681943 cites W1978174370 @default.
W3194681943 cites W1980796999 @default.
W3194681943 cites W1981225135 @default.
W3194681943 cites W1983629935 @default.
W3194681943 cites W1987496724 @default.
W3194681943 cites W1994477572 @default.
W3194681943 cites W1996105658 @default.
W3194681943 cites W1997955009 @default.
W3194681943 cites W2010178746 @default.
W3194681943 cites W2011753233 @default.
W3194681943 cites W2012269656 @default.
W3194681943 cites W2014036105 @default.
W3194681943 cites W2014592110 @default.
W3194681943 cites W2016463190 @default.
W3194681943 cites W2016698571 @default.
W3194681943 cites W2023329372 @default.
W3194681943 cites W2024421491 @default.
W3194681943 cites W2026066295 @default.
W3194681943 cites W2027019914 @default.
W3194681943 cites W2028478619 @default.
W3194681943 cites W2031772965 @default.
W3194681943 cites W2035516440 @default.
W3194681943 cites W2035578954 @default.
W3194681943 cites W2039019236 @default.
W3194681943 cites W2040191673 @default.
W3194681943 cites W2045418737 @default.
W3194681943 cites W2048933342 @default.
W3194681943 cites W2049586551 @default.
W3194681943 cites W2051374593 @default.
W3194681943 cites W2058755121 @default.
W3194681943 cites W2060938816 @default.
W3194681943 cites W2067046004 @default.
W3194681943 cites W2067245875 @default.
W3194681943 cites W2068038682 @default.
W3194681943 cites W2084947255 @default.
W3194681943 cites W2093554632 @default.
W3194681943 cites W2093783374 @default.
W3194681943 cites W2094393045 @default.
W3194681943 cites W2099782415 @default.
W3194681943 cites W2100822600 @default.
W3194681943 cites W2117449086 @default.
W3194681943 cites W2130377969 @default.
W3194681943 cites W2134085593 @default.
W3194681943 cites W2135264734 @default.
W3194681943 cites W2142709923 @default.
W3194681943 cites W2156391135 @default.
W3194681943 cites W2157258353 @default.
W3194681943 cites W2164030893 @default.
W3194681943 cites W2290644883 @default.
W3194681943 cites W2308884963 @default.
W3194681943 cites W2318375747 @default.
W3194681943 cites W2346421649 @default.
W3194681943 cites W2400958954 @default.
W3194681943 cites W2434618280 @default.
W3194681943 cites W2511721998 @default.
W3194681943 cites W2527916864 @default.
W3194681943 cites W2590010036 @default.
W3194681943 cites W2602005060 @default.
W3194681943 cites W2620734253 @default.
W3194681943 cites W2663919757 @default.
W3194681943 cites W2741310905 @default.
W3194681943 cites W2752636079 @default.
W3194681943 cites W2766023951 @default.
W3194681943 cites W2767268402 @default.
W3194681943 cites W2891230143 @default.
W3194681943 cites W2891770314 @default.
W3194681943 cites W2896754736 @default.
W3194681943 cites W2897381093 @default.
W3194681943 cites W2905654302 @default.
W3194681943 cites W2914420723 @default.
W3194681943 cites W2917585223 @default.
W3194681943 cites W2922169843 @default.
W3194681943 cites W2927441009 @default.
W3194681943 cites W2937628903 @default.
W3194681943 cites W2963413233 @default.
W3194681943 cites W2967568622 @default.
W3194681943 cites W3003183688 @default.
W3194681943 cites W3089495626 @default.
W3194681943 cites W3130255647 @default.
W3194681943 cites W3155820848 @default.
W3194681943 cites W4243911070 @default.
W3194681943 cites W73308757 @default.