L. I. Svistun scite author profile

The interaction of components and structure formation were studied in liquid phase sintering of Co-Sn and Co-Sn-Cu powder materials. The powders of commercially pure metals were mixed with an organic binder and applied on the steel substrate. Sintering was performed under vacuum at temperatures of 820 and 1100 °C. The structure of sintered alloys was investigated by X-ray diffractometry and electron probe microanalysis, and microhardness (HV0.01) of the structural components was measured. It has been found that the nature of interaction of the liquid tin with the solid phase at the initial stage of sintering affects the formation of structure and porosity of Co-Sn and Co-Sn-Cu alloys considerably. In Co-Sn alloys, diffusion of tin into cobalt particles leads to the formation of intermetallic compounds, which hinders spreading of the liquid phase. This results in a porous defect structure formed in Co-Sn alloys. In Co-Sn-Cu alloys, at the initial stage of sintering the liquid phase enriched with copper is formed that wets the cobalt particles and contributes to their regrouping. As a result of this, materials with minor porosity are formed.

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Cobalt Mass Transfer Through the Liquid Phase in Sintering of Sn-Cu-Co and Sn-Cu-Co-W Powder Materials

Sokolov¹,

Ozolin²,

Svistun³

2019

JPHMT

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Structure and properties of an R6M5K5 high-speed steel-titanium carbide composite in the form of a hot-forged bilayer product

2009

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Milling of Carbide-Steel Powder Components and Their Mixtures in an Attrition Mill

Pavlygo

Plomod'yalo²,

Plomodyalo³

et al. 2004

Powder Metallurgy and Metal Ceramics

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L. I. Svistun

Determination of the compressibility, side pressure, and external friction of metal powders

Interaction of Components of Co-Sn and Co-Sn-Cu Powder Materials in Liquid Phase Sintering

Cobalt Mass Transfer Through the Liquid Phase in Sintering of Sn-Cu-Co and Sn-Cu-Co-W Powder Materials

Structure and properties of an R6M5K5 high-speed steel-titanium carbide composite in the form of a hot-forged bilayer product

Milling of Carbide-Steel Powder Components and Their Mixtures in an Attrition Mill

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