Computer Simulation of Spherical Particle Sintering

Standard

Computer Simulation of Spherical Particle Sintering. / Kadushnikov, Radii ; Nurkanov, Eugenii; Skorokhod, Valerii V.
In: Powder Metallurgy and Metal Ceramics, Vol. 40, No. 3/4, 2001, p. 154-163.

Research output: Contribution to journal › Article › peer-review

Harvard

Kadushnikov, R , Nurkanov, E & Skorokhod, VV 2001, 'Computer Simulation of Spherical Particle Sintering', Powder Metallurgy and Metal Ceramics, vol. 40, no. 3/4, pp. 154-163. https://doi.org/10.1023/A:1011927405856

APA

Kadushnikov, R., Nurkanov, E., & Skorokhod, V. V. (2001). Computer Simulation of Spherical Particle Sintering. Powder Metallurgy and Metal Ceramics, 40(3/4), 154-163. https://doi.org/10.1023/A:1011927405856

Vancouver

Kadushnikov R , Nurkanov E, Skorokhod VV. Computer Simulation of Spherical Particle Sintering. Powder Metallurgy and Metal Ceramics. 2001;40(3/4):154-163. doi: 10.1023/A:1011927405856

Author

Kadushnikov, Radii ; Nurkanov, Eugenii ; Skorokhod, Valerii V. / Computer Simulation of Spherical Particle Sintering. In: Powder Metallurgy and Metal Ceramics. 2001 ; Vol. 40, No. 3/4. pp. 154-163.

BibTeX

@article{a8a3c64ce0db43c691bc26c20236671a,

title = "Computer Simulation of Spherical Particle Sintering",

abstract = "A mathematical description is given of the sintering kinetics for an ensemble of particles on the basis of a unified phenomenological approach, which has been used in a computer model for spherical particle sintering. A series of computer experiments has been performed to check the fit of the model to the physical process. The sintered spherical particle packing has a cluster organization. It is confirmed that the mesostructure is inherited when monodispersed spherical particles are sintered. The computer experiment showed that the phase boundaries initiate macropore nucleation and growth. The sintering rate and the contact area are critical factors determining macropore size and position.",

author = "Radii Kadushnikov and Eugenii Nurkanov and Skorokhod, {Valerii V.}",

year = "2001",

doi = "10.1023/A:1011927405856",

language = "English",

volume = "40",

pages = "154--163",

journal = "Powder Metallurgy and Metal Ceramics",

issn = "1068-1302",

publisher = "Springer",

number = "3/4",

}

RIS

TY - JOUR

T1 - Computer Simulation of Spherical Particle Sintering

AU - Kadushnikov, Radii

AU - Nurkanov, Eugenii

AU - Skorokhod, Valerii V.

PY - 2001

Y1 - 2001

N2 - A mathematical description is given of the sintering kinetics for an ensemble of particles on the basis of a unified phenomenological approach, which has been used in a computer model for spherical particle sintering. A series of computer experiments has been performed to check the fit of the model to the physical process. The sintered spherical particle packing has a cluster organization. It is confirmed that the mesostructure is inherited when monodispersed spherical particles are sintered. The computer experiment showed that the phase boundaries initiate macropore nucleation and growth. The sintering rate and the contact area are critical factors determining macropore size and position.

AB - A mathematical description is given of the sintering kinetics for an ensemble of particles on the basis of a unified phenomenological approach, which has been used in a computer model for spherical particle sintering. A series of computer experiments has been performed to check the fit of the model to the physical process. The sintered spherical particle packing has a cluster organization. It is confirmed that the mesostructure is inherited when monodispersed spherical particles are sintered. The computer experiment showed that the phase boundaries initiate macropore nucleation and growth. The sintering rate and the contact area are critical factors determining macropore size and position.

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U2 - 10.1023/A:1011927405856

DO - 10.1023/A:1011927405856

M3 - Article

VL - 40

SP - 154

EP - 163

JO - Powder Metallurgy and Metal Ceramics

JF - Powder Metallurgy and Metal Ceramics

SN - 1068-1302

IS - 3/4

ER -

ID: 42796649