Molecular Dynamics Simulation of Ni Nanoparticles Sintering Process in Ni/YSZ Multi-Nanoparticle System

Xu, Jinliang; Sakanoi, Ryota; Higuchi, Yuji; Ozawa, Nobuki; Sato, Kazuhisa; Hashida, Toshiyuki; Kubo, Momoji

doi:10.1021/jp310920d

Cited by 59 publications

(52 citation statements)

References 47 publications

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“…The atoms and molecules are allowed to interact for a period of time, giving a view of the motion of the atoms. Xu et al, 3) Kart et al, 4) Ogura et al 5) used Molecular Dynamics to study the sintering behavior of nanoparticles.…”

Section: )mentioning

confidence: 99%

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A comparative study of different sintering models for Al2O3

Nguyen

Sistla

Kempen

et al. 2016

J. Ceram. Soc. Japan

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Based on various deformation mechanisms occurring during solid state sintering (pressureless and pressure assisted), a multitude of sintering models have been developed and presented in literature. As reported in literature, most of the simulation results line up well with experimental data. Unfortunately, none of them can be used arbitrarily and none of them are applicable to a generalized case. This paper focuses on a comparative study of three commonly applied models. The first model is based on a physical approach (Riedel) and the other two are phenomenologically based models (the modified SkorohodOlevsky Viscous Sintering (SOVS) model and a modified Abouaf model). The material models have been implemented through FORTRAN Subroutines used for the FE-Software ABAQUS. The simulation results demonstrate their advantages and disadvantages based on sintering simulations of an aluminum oxide based ceramic cylinder and a bilayer laminate. A guideline to select a suitable model and the adjustment of input parameters under different sintering conditions for general usage is also discussed.

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Section: )mentioning

confidence: 99%

“…The complementary input parameters for the FEM simulations are the density, which for the Aluminum oxide at 25°C is 3.960 g/cm 3 . The other properties such as thermal conductivity, thermal expansion, specific heat and Young's Modulus are temperature dependent.…”

Section: )mentioning

confidence: 99%

A comparative study of different sintering models for Al2O3

Nguyen

Sistla

Kempen

et al. 2016

J. Ceram. Soc. Japan

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“…Xu et al developed a molecular dynamics simulation method to investigate the sintering of nickel nanoparticles in nickel and yttria-stabilized zirconia (Ni/YSZ) anode of solid oxide fuel cell. 3 The model reveals that the YSZ nanoparticle framework suppresses the sintering of nickel nanoparticles by disrupting the growth of the neck between two nickel nanoparticles. 3 Yang studied the neck growth in the sintering of different sized gold (100) nanoparticles under different heating rates.…”

Section: Introductionmentioning

confidence: 99%

“…3 The model reveals that the YSZ nanoparticle framework suppresses the sintering of nickel nanoparticles by disrupting the growth of the neck between two nickel nanoparticles. 3 Yang studied the neck growth in the sintering of different sized gold (100) nanoparticles under different heating rates. 4 The results show that a stable neck width increases as the size of the other nanoparticle increases.…”

Section: Introductionmentioning

confidence: 99%

Sintering phenomena and mechanical strength of nickel based materials in direct metal laser sintering process—a molecular dynamics study

Zhang

2016

J. Mater. Res.

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This paper presents an atomistic scale model on sintering of nickel particles in direct metal laser sintering process. Both sintering phenomena and mechanical strength of sintered particles are simulated using molecular dynamics method. A two-particle atomistic model is developed to investigate the diffusion of atoms during nickel sintering. The diffusion of particle surface is higher than the particle core, with calculated activation energy of nickel particle diffusion 6.10 kJ/mol in the particle core, and 6.24 kJ/mol on the particle surface, which are reasonably in agreement with the experimental data of 7.89 kJ/mol. The sintered model shows a 5-fold twinning structure at 1200 K, and two parallel twin boundaries at 1300 K. The mechanical properties of nickel nanoparticles sintered at various heating rates are investigated using uniaxial tensile test simulations. The results show that higher heating rate during sintering increases the mechanical strength of the sintered material. Deformation mechanism of sintered structures is illustrated from the correlation between stress and dislocation evolution.

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“…[1][2][3][4][5] including computer simulation of such objects, e.g., Refs. [6][7][8][9][10][11][12][13]. It is clear, that, with a diminishing particle size, the number of degrees of freedom decreases.…”

Section: Introductionmentioning

confidence: 99%

Particularities of Nanoparticle Reflection from a Barrier

Ratner¹,

Тур²,

Yanovsky³

2015

Jnl of Comp & Theo Nano

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This work is devoted to molecular dynamics modelling of collision of nanoparticle having a small number of degrees of freedom with a structureless plain. The new regularities are established that determine properties of such particles. Generalized collision law is obtained where particle properties are determined by two coefficient, ono of which corresponds to restitution coefficient. The discovered regularity predicts the existence of anomalous mode of particle reflection from a massive plain. In this mode, velocity of nanoparticle after reflection from a plain can exceed the initial one. The criterion of realization of such mode is obtained. Anomalous collision mode was observed during numerical modeling. Physical mechanisms are discussed of phenomena that are observed during numerical experiments.

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Molecular Dynamics Simulation of Ni Nanoparticles Sintering Process in Ni/YSZ Multi-Nanoparticle System

Cited by 59 publications

References 47 publications

A comparative study of different sintering models for Al<sub>2</sub>O<sub>3</sub>

A comparative study of different sintering models for Al<sub>2</sub>O<sub>3</sub>

Sintering phenomena and mechanical strength of nickel based materials in direct metal laser sintering process—a molecular dynamics study

Particularities of Nanoparticle Reflection from a Barrier

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