The Influence of Molding Powder Breakup on the Sintered Ceramic Quality

Natalya Belousova; Sergey Veselov; Ruslan Kuzmin; Elena Melnikova

doi:10.4028/www.scientific.net/AMM.698.513

Paper Titles

Technological Inheritance of Waviness at Milling
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Effect of Heat-Treatment on the Interface Microstructure of Explosively Welded Stainless Steel – Bronze Composite
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Earing and Anisotropy Indices of Texture Components in the Hot-Rolled 3104 Alloy
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Obtaining the Nanostructured Nitride Composition TiN-BN Powder by the Self-Propagating High-Temperature Synthesis from the Azide KBF₄-NaN₃-Na₂TiF₆ and "NH₄BF₄-NaN₃-Na₂TiF₆ Systems
p.507

The Influence of Molding Powder Breakup on the Sintered Ceramic Quality
p.513

Investigation of the Process of Mechanical Alloying of Iron by Austenite Forming Elements
p.519

A Scheme for Hydrogen Evolution from Natural Gas
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Experimental Study of Geometrical Parameters of Abrasive Grains in Modeling their Cutting Edges with the Surface of Rotation
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Laser Interferometry Method of Stress Determination in Loaded Cutting Tool Parts
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 698The Influence of Molding Powder Breakup on the...

The Influence of Molding Powder Breakup on the Sintered Ceramic Quality

Abstract:

This paper assesses the moldability of press-powder with different fractional composition. Different types of defects that occur in ceramic materials due to insufficient or overpressure of molding of press powderare analyzed. Based on results of structural studies and evaluation of the physical properties of materials recommendations on the molding selection modes of press-powders with different fractional composition that provide the absence of defects in the compacts and obtaining quality dense ceramics are formulated.

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Periodical:

Applied Mechanics and Materials (Volume 698)

Pages:

513-518

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.698.513

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Online since:

December 2014

Authors:

Natalya Belousova*, Sergey Veselov, Ruslan Kuzmin, Elena Melnikova

Keywords:

Dense Ceramic, Density, Fractional Composition, Open Porosity, Press Powder, Strength, Technical Ceramics

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