Design of ceramics powder compaction process parameters (Part II : Optimization) (세라믹스 분말 가압 성형 공정변수 설계(2부:최적화))

김정래; Young Tag Keum (금영탁)

Design of ceramics powder compaction process parameters (Part II : Optimization)

Journal of the Korean Crystal Growth and Crystal Technology
Abbr : J. Korean Cryst. Growth Cryst. Technol.
2005, 15(1), pp.27-33
Publisher : The Korea Association Of Crystal Growth, Inc.
Research Area : Engineering > Materials Science and Engineering

김정래 ¹, Young Tag Keum ¹

¹한양대학교

Accredited

ABSTRACT

In this study, the process parameters in ceramics powder compaction are optimized for getting high relative densities of ceramic products. To find optimized parameters, the analytic models of powder compaction are firstly prepared by 2-dimensional rod arrays with random green densities using a quasi-random multiparticle array. Then, using finite element method, the changes in relative densities are analyzed by varying the size of Al2O3 particle, the amplitude of cyclic compaction, and the coefficient of friction, which influence the relative density in cyclic compactions. After the analytic function of relative density associated process parameters are formulated by aid of the response surface method, the optimal conditions in powder compaction process are found by the grid search method. When the particle size of Al2O3 is 22.5 mm, the optimal parameters for the amplitude of cyclic compaction and the coefficient of friction are 75 MPa and 0.1103, respectively. The maximum relative density is 0.9390.

KEYWORDS

Ceramics powder compaction, Optimization, Response surface method, Cyclic pressure, Finite element analysis

Citation status

* References for papers published after 2023 are currently being built.

[journal] / C. Jung and Y.T. Keum ？Design of ceramics powder compaction process parameters ? Journal of the Korean Crystal Growth and Crystal Technology

[journal] / 2001 / ？Effects of lubrication and aspect ratio on the consolidation of metal matrix composite under cyclic pressure? y. fu and r.h. wagoner : 1417~

[journal] / 2001 / Inclusion particle size on the cyclic compaction of powder composites? : 1117~

[journal] / 2000 / ？Effect of agglomerate size distribution on loose packing fraction? Journal of the American Ceramic Society 83 : 2183~

[journal] / 1998 / The effect of wall friction on the ejection of pressed ceramic parts? Powder Technology 99 : 228~

[journal] / 1992 / ？Densification of aggregated alumina powder under cyclic compaction? Journal of Korean Ceramic Society 29 : 136~

[journal] / 1998 / S.S. Park ？optimization of powder compaction parameters for the pressureless sintered zta? journal of korean association of crystal growth 8(2)

[journal] / 1998 / N. Stander and R.T. Haftka : 42 517~

[journal] / 1998 / ？Construction of response surface approximations for design optimization? AIAA Journal 36 : 2242~

[journal] / 1995 / ？Comparison of the properties of aluminum matrix composites produced by compaction and powder injection molding? : 155~

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