Three-dimensional computational model of spherical particles sintering

Standard

Three-dimensional computational model of spherical particles sintering. / Kadushnikov, R. M.; Skorokhod, Valerii V.; Kamenin, I. G. и др.
в: Poroshkovaya Metallurgiya, № 3-4, 2001, стр. 71-82.

Результаты исследований: Вклад в журнал › Статья › Рецензирование

Harvard

Kadushnikov, RM, Skorokhod, VV, Kamenin, IG, Alievskij, VM, Nurkanov, EY & Alievskij, DM 2001, 'Three-dimensional computational model of spherical particles sintering', Poroshkovaya Metallurgiya, № 3-4, стр. 71-82.

APA

Kadushnikov, R. M., Skorokhod, V. V., Kamenin, I. G., Alievskij, V. M., Nurkanov, E. Y., & Alievskij, D. M. (2001). Three-dimensional computational model of spherical particles sintering. Poroshkovaya Metallurgiya, (3-4), 71-82.

Vancouver

Kadushnikov RM, Skorokhod VV, Kamenin IG, Alievskij VM, Nurkanov EY, Alievskij DM. Three-dimensional computational model of spherical particles sintering. Poroshkovaya Metallurgiya. 2001;(3-4):71-82.

Author

Kadushnikov, R. M. ; Skorokhod, Valerii V. ; Kamenin, I. G. и др. / Three-dimensional computational model of spherical particles sintering. в: Poroshkovaya Metallurgiya. 2001 ; № 3-4. стр. 71-82.

BibTeX

@article{64a7f4c8ac8b467fa96c26f2efe52476,

title = "Three-dimensional computational model of spherical particles sintering",

abstract = "On the base of physico-mathematical apparatus; Describing kinetics of sintering the particles ensemble, within the frame of the single phenomenological approach, the computer mode of sintering spherical particles is created. Series of computational experiments were performed to justify adequacy of a model to the real physical process. Cluster organization of spherical particles sintered package structure was found. The implication of inheriting mesostructure during the sintering of monodisperse spherical particles packing is confirmed. Under conditions of computing experiment it is shown, that the border between the phases initiates generation and growth of a macropore. Speed of interphase sintering and contact area are the critical factors, determining macropore position and size.",

author = "Kadushnikov, {R. M.} and Skorokhod, {Valerii V.} and Kamenin, {I. G.} and Alievskij, {V. M.} and Nurkanov, {E. Yu.} and Alievskij, {D. M.}",

year = "2001",

language = "English",

pages = "71--82",

journal = "Poroshkovaya Metallurgiya",

issn = "0032-4795",

publisher = "Natsional'na Akademiya Nauk Ukrainy",

number = "3-4",

}

RIS

TY - JOUR

T1 - Three-dimensional computational model of spherical particles sintering

AU - Kadushnikov, R. M.

AU - Skorokhod, Valerii V.

AU - Kamenin, I. G.

AU - Alievskij, V. M.

AU - Nurkanov, E. Yu.

AU - Alievskij, D. M.

PY - 2001

Y1 - 2001

N2 - On the base of physico-mathematical apparatus; Describing kinetics of sintering the particles ensemble, within the frame of the single phenomenological approach, the computer mode of sintering spherical particles is created. Series of computational experiments were performed to justify adequacy of a model to the real physical process. Cluster organization of spherical particles sintered package structure was found. The implication of inheriting mesostructure during the sintering of monodisperse spherical particles packing is confirmed. Under conditions of computing experiment it is shown, that the border between the phases initiates generation and growth of a macropore. Speed of interphase sintering and contact area are the critical factors, determining macropore position and size.

AB - On the base of physico-mathematical apparatus; Describing kinetics of sintering the particles ensemble, within the frame of the single phenomenological approach, the computer mode of sintering spherical particles is created. Series of computational experiments were performed to justify adequacy of a model to the real physical process. Cluster organization of spherical particles sintered package structure was found. The implication of inheriting mesostructure during the sintering of monodisperse spherical particles packing is confirmed. Under conditions of computing experiment it is shown, that the border between the phases initiates generation and growth of a macropore. Speed of interphase sintering and contact area are the critical factors, determining macropore position and size.

UR - http://www.scopus.com/inward/record.url?partnerID=8YFLogxK&scp=0035772560

M3 - Article

SP - 71

EP - 82

JO - Poroshkovaya Metallurgiya

JF - Poroshkovaya Metallurgiya

SN - 0032-4795

IS - 3-4

ER -

ID: 44991149