Atomic interaction mechanism for designing the interface of W/Zr-based bulk metallic glass composites

Li, Z. K.; Fu, Huameng; Sha, Pengfeng; Zhu, Zheng; Wang, A. M.; Li, H.; Zhang, H. W.; Zhang, H. F.; Hu, Zheng

doi:10.1038/srep08967

Cited by 30 publications

(6 citation statements)

References 34 publications

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“…Therefore, we expand ψ and ν in Π ψ n (S) and p and q in Π p n (S) and require the residual of Eqs. (22) and (23) to be orthogonal to Π ψ n (S) × Π p n (S). This leads to the Galerkin scheme…”

Section: A (Vector) Spherical Harmonics Expansionmentioning

confidence: 99%

“…Self-propelled particles can also be confined to a compact manifold like a sphere, as realized by multicellular spherical Volvox colonies [17], bacteria moving on oil drops [18] or layered in water drops [19], or by active nematic vesicles [20]. This has triggered recent theoretical and simulation work on self-propelled particles on spheres considering both their individual [21,22] and collective [23,24] dynamics.…”

Section: Introductionmentioning

confidence: 99%

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Active crystals on a sphere

et al. 2018

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Two-dimensional crystals on curved manifolds exhibit nontrivial defect structures. Here we consider "active crystals" on a sphere, which are composed of self-propelled colloidal particles. Our work is based on a phase-field-crystal-type model that involves a density and a polarization field on the sphere. Depending on the strength of the self-propulsion, three different types of crystals are found: a static crystal, a self-spinning "vortex-vortex" crystal containing two vortical poles of the local velocity, and a self-translating "source-sink" crystal with a source pole where crystallization occurs and a sink pole where the active crystal melts. These different crystalline states as well as their defects are studied theoretically here and can in principle be confirmed in experiments.

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Section: A (Vector) Spherical Harmonics Expansionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Active crystals on a sphere

et al. 2018

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“…Vicsek model, [8] a minimal model to depict the phase transition, has been extended in various aspects since its appearance, such as from polar to apolar particles, [10,11] from intrinsic scalar noise to vectorial noise, [9] and extensions of interactions to include, e.g., cohesion [12] and disordered environments. [14,15] One particular kind of variants is to change the space where SSPs reside from two-dimensional Euclidean space to lattices [16,17] or general manifolds [18] and/or from continuous directional space to discrete ones. [19,20] In Vicsek model and its variants, it is long accepted that the collective motion is optimized with vanishing noise and maximal particle density.…”

Section: Introductionmentioning

confidence: 99%

Nonvanishing optimal noise in cellular automaton model of self-propelled particles

2022

Chinese Phys. B

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A minimal cellular automaton model is introduced to describe the collective motion of self-propelled particles on two-dimensional square lattice. The model features discretization of directional and positional spaces and single-particle occupation on one lattice site. Contrary to Vicsek model and its variants, our model exhibits nonvanishing optimal noise. When particle density increases, the collective motion is promoted with optimal noise strength and reduced with noise strength out of optimal region. In addition, when the square lattice undergoes edge percolation process, no abrupt change of alignment behaviors is observed at the critical point of percolation.

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“…It is known that the interface plays an important role in the mechanical properties of composites [22]. Wang et al [23] and Li et al [24] optimized the interface between the metallic glass matrix and the tungsten fiber by adding alloy element to the glass matrix, which significantly increased the compressive mechanical properties of BMGCs. Besides the interface, Conner et al [8] and Dragoi et al [25] found that the thermal residual stresses also influenced the mechanical properties and deformation behaviors of the BMGCs.…”

Section: Introductionmentioning

confidence: 99%

Interface characterization in tungsten fiber/Zr-based bulk metallic glass matrix composite

Mofid

Jafarzadegan

2021

J Met Mater Miner

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In this research, Zr55Cu30Al10Ni5 bulk metallic glass (BMG) alloy is used as the base material to form tungsten fiber reinforced BMG composites. The composites are synthetized using melt infiltration casting method and their microstructure and compressive properties are investigated. Two different infiltration times of 10 min and 15 min are used to produce the composites. The microstructural evaluation of the interface between tungsten fiber and BMG matrix reveals that a narrow reaction band emerges between the tungsten wires and BMG alloy. Some portions of this layer are broken into the fine Zr/W-rich particles and eventually are dispersed in the BMG matrix, when the infiltration time is 15 min. The results also showed that increasing the infiltration time from 10 min to 15 min improves the compression strength of the composite from 1333 MPa to 1396 MPa and also increases the compression strain of the composite from 0.11 to 0.13. This is attributed to the lack of porosities and better metallurgical bonding between tungsten fibers and BMG matrix.

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Atomic interaction mechanism for designing the interface of W/Zr-based bulk metallic glass composites

Cited by 30 publications

References 34 publications

Active crystals on a sphere

Active crystals on a sphere

Nonvanishing optimal noise in cellular automaton model of self-propelled particles

Interface characterization in tungsten fiber/Zr-based bulk metallic glass matrix composite

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