Minsheng Huang scite author profile

• This is the author's version of a work that was accepted for publication in the journal, International Journal of Plasticity. Changes resulting from the publishing process, such as peer review, editing, corrections, structural formatting, and other quality control mechanisms may not be reflected in this document. Changes may have been made to this work since it was submitted for publication.A definitive version was subsequently pub- AbstractDiscrete dislocation dynamics (DDD) has been used to model the deformation of nickelbased single crystal superalloys with a high volume fraction of precipitates at high temperature. A representative volume cell (RVC), comprising of both the precipitate and the matrix phase, was employed in the simulation where a periodic boundary condition was applied. The dislocation Frank-Read sources were randomly assigned with an initial density on the 12 octahedral slip systems in the matrix channel. Precipitate shearing by superdislocations was modelled using a back force model, and the coherency stress was considered by applying an initial internal stress field. Strain-controlled loading was applied to the RVC in the [001] direction. In addition to dislocation structure and density evolution, global stress-strain responses were also modelled considering the influence of precipitate shearing, precipitate morphology, internal microstructure scale (channel width and precipitate size) and coherency stress. A three-stage stress-strain response observed in the experiments was modelled when precipitate shearing by superdislocations was considered.The polarized dislocation structure deposited on the precipitate/matrix interface was found to be the dominant strain hardening mechanism. Internal microstructure size, precipitate shape and arrangement can significantly affect the deformation of the single crystal superalloy by changing the constraint effect and dislocation mobility. The coherency stress field has a negligible influence on the stress-strain response, at least for cuboidal precipitates considered in the simulation. Preliminary work was also carried out to simulate the cyclic deformation in a single crystal Ni-based superalloy using the DDD model, although no cyclic hardening or softening was captured due to the lack of precipitate shearing and dislocation cross slip in this alloy.

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Review on the correlation between microstructure and mechanical performance for laser powder bed fusion AlSi10Mg

Zhao

Song

Macías

et al. 2022

Additive Manufacturing

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Molecular dynamics simulation of intragranular Xe bubble re-solution in UO2

Schwen

Huang

Bellon

et al. 2009

Journal of Nuclear Materials

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Strengthening mechanisms of the nanolayered polycrystalline metallic multilayers assisted by twins

Zhu

Huang

et al. 2015

International Journal of Plasticity

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Minsheng Huang

Strengthening mechanism in micro-polycrystals with penetrable grain boundaries by discrete dislocation dynamics simulation and Hall–Petch effect

Discrete dislocation dynamics modelling of mechanical deformation of nickel-based single crystal superalloys

Review on the correlation between microstructure and mechanical performance for laser powder bed fusion AlSi10Mg

Molecular dynamics simulation of intragranular Xe bubble re-solution in UO2

Strengthening mechanisms of the nanolayered polycrystalline metallic multilayers assisted by twins

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