Mathematical Model of Sintering of Powder Solids

Andrey N. Dmitriev; V.I. Bulanov

doi:10.4028/www.scientific.net/DDF.258-260.101

Paper Titles

Interdiffusion Between Ni-Based Superalloy and MCrAlY Coating
p.73

Diffusion and Stress in Tungsten; Different Time Scales
p.79

Measurement of Diffusion Coefficients in Building Materials Using the Initial Rate of Sorption
p.85

The Role of Reducibility in Achievement of the Minimal Coke Consumption in the Blast Furnace Smelting
p.91

Mathematical Model of Sintering of Powder Solids
p.101

Diffusion of I Group Metals in Porous Silicon
p.107

Interphase Diffusion with Curved Phase Boundaries
p.113

Formation of Diffusion Potential Barrier for Oxygen Ions in Nio1-δ Crystal
p.118

The Influence of Defects on Proton Diffusion in Perovskites А^IIВ^IV1_1-xR^III_xO_3-δ: Monte Carlo Study
p.124

HomeDefect and Diffusion ForumDefect and Diffusion Forum Vols. 258-260Mathematical Model of Sintering of Powder Solids

Mathematical Model of Sintering of Powder Solids

Abstract:

Reduction and sintering are complicated processes demanding use of mathematical modelling - consolidation of multicomponent materials. The most representative of them are products formed during consolidation during sintering of powders. They have common physical and chemical characteristics both from the viewpoint of initial (multicomponent) materials, and from the viewpoint of technological parameters. Such processes simultaneously involve both the reduction and the sintering with simultaneous consolidation of particles into materials. The sintering of powders of crystals is a flexible and effective way of production of polycrystalline composite materials with a given structure and properties. In this paper a mathematical model of the process of sintering suggested by us is considered.

You might also be interested in these eBooks

Diffusion in Solids and Liquids, DSL-2006 I

View Preview

Info:

Periodical:

Defect and Diffusion Forum (Volumes 258-260)

Pages:

101-106

DOI:

https://doi.org/10.4028/www.scientific.net/DDF.258-260.101

Citation:

Cite this paper

Online since:

October 2006

Authors:

Andrey N. Dmitriev, V.I. Bulanov

Keywords:

Diffusion, Mathematical Models, Powder Substance, Reduction, Sintering

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] A.I. Raichenko, I.M. Fedorchenko. About homogenization at sintering powder metals with unlimited solubility. In Book: Questions of powder metallurgy and durability of materials. Kiev, (1958), p.21.

Google Scholar

[2] V.I. Bulanov, Yu. F. Vereschagin, A.D. Moshkov. Calculation and experimental definition of time of sintering of ceramic-metal materials. In Book: The technical and economic bulletin. Cheliabinsk, Vol. 4 (1961), p.46.

Google Scholar

[3] V.I. Bulanov, V.R. Nebolsinov. Forecasting of properties of sintered materials (Science, Russia, Moscow 1981).

Google Scholar

[4] A.I. Raichenko. Diffusion calculations for powder mixes. (Science, Ukraine, Kiev 1969). Acknowledgments This work was executed with support from: - Council under Grants for Leading Scientific Schools of Russia (School № 5468. 2006. 3); - Russian Foundation for Basic Research (Grant № 05-03-32174).

Google Scholar