A. K. Abkaryan scite author profile

A. K. Abkaryan

5Publications

21Citation Statements Received

17Citation Statements Given

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Siberian Federal University

Publications

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Design and Investigation of Hard Metal Composites Modified by Nanoparticles

Gordeev

Abkaryan

Binchurov

et al. 2014

AMR

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The influence of nanoparticles additives on the hard metals properties has been investigated. Nanoparticles introduced into a binder of average size decrease the metal interlayer and therefore increase the strength of binder and composite as a whole. The reduction of the carbide grain average size was found as well (owing to nanoparticles blocking influence on re-crystallization). Besides, the internal thermotension and adhesion wear decrease at high speed cutting (especially for stainless steel) in comparision with base hard metals. The test results display that the modification through ultrafme particles enables to improve the main properties: wear resistance – 1.6 - 2 - fold; fracture toughness – 1.8 - 2 - fold; transverse rupture toughness - at 25 - 50%; tool life – 1.3 - 4 - fold.

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Heat Capacity of Pb10 –xPrx(GeO4)2 +x(VO4)4– x (x = 0, 1, 2, 3) Apatites in the Range 350–1050 K

et al. 2020

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Study by X-Ray Methods of the Effect of Temperature on Crystal Lattice Interplanar Distances of Pervoural’sk Quartzite Used for Induction Furnace Lining

Кукарцев

Abkaryan

2014

Refract Ind Ceram

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Investigation of the residual stresses effect on the magnetic properties of CuO nanoparticles synthesized in a low-pressure arc discharge plasma

Карпов

Ушаков

Demin

et al. 2019

Journal of Magnetism and Magnetic Materials

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The laws governing the formation of residual stresses in copper oxide nanoparticles in the process of their direct plasma-chemical synthesis in a low-pressure arc discharge plasma are studied. Correlation dependences of the residual stress and the magnetization of nanoparticles on the pressure of the gas mixture of 10% O 2 + 90% Ar are presented. The problems associated with the bifurcation of the magnetization curves during cooling in zero (ZFC) and non-zero (FC) magnetic field, non-equilibrium behavior, relaxation of magnetization and magnetic viscosity of the obtained CuO nanoparticles are discussed.

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Improving hard-alloy strength and tool life by thermomechanical treatment

Gordeev

Abkaryan

2013

Russ. Engin. Res.

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A. K. Abkaryan

Design and Investigation of Hard Metal Composites Modified by Nanoparticles

Heat Capacity of Pb10 –xPrx(GeO4)2 +x(VO4)4– x (x = 0, 1, 2, 3) Apatites in the Range 350–1050 K

Study by X-Ray Methods of the Effect of Temperature on Crystal Lattice Interplanar Distances of Pervoural’sk Quartzite Used for Induction Furnace Lining

Investigation of the residual stresses effect on the magnetic properties of CuO nanoparticles synthesized in a low-pressure arc discharge plasma

Improving hard-alloy strength and tool life by thermomechanical treatment

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