Plasma wear‐resistant coatings with inclusions of a solid lubricant

Оковитый, В. А.

doi:10.1080/09507110209549638

Cited by 6 publications

(2 citation statements)

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“…Current methods of improving the wear resistance of such hard alloys are based on: development of new coating materials based on various d-metals or alloys [9]; introduction of additional components (nanoparticles, superhard carbides, ceramics, including those obtained by the SHS method) into current materials [10][11]; modification of contact interaction nature using Charpy effect [12]; new wear-resistant boride and other phases synthesis [13], etc in the coating or on its borders. However, the most promising technical method is the introduction of small amounts (up to 5 wt.%) of active additives, for example MoS2 dry friction modifier [14], into the finished coating materials, which makes it possible to use high-performance inductive surfacing technology [3,7] for coating without significant changes.…”

Section: Introductionmentioning

confidence: 99%

Comparative Study of High-Chromium Cast Iron Coatings Modified with WС-W2C/Co+B4С+Ni/Al Complexes and Cr3C2/PG-US25 Ceramet

Shchegolev

Ишков

Ivanaysky

2020

SSP

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The article describes the preparation and comparative wear resistance testing Fe-Cr-C- (B) coating materials, intended to harden the working bodies of agricultural machines, using high-performance method of inductive surfacing, and contains the results of microstructure analysis of such coatings. These coatings are made of powder compositions, based on PG-US25 high-chromium cast iron, and borate flux for inductive surfacing of P-0.66 grade, modified with W, B, Cr carbides in amounts from 2...5 to 25...30 wt.%, which can be applied to machine’s elements without significant technology changes. Modifying agents were commercial products (WC-W2C / Co spherical cast tungsten carbide, B4C abraser). The article demonstrates that the injection of these complexes into the fusion mixture for inductive surfacing can increase their hardness (up to 1000...1200 HV100) and wear resistance of the surfacing metal 3.1...4.5 times, compared to the base metal (65G steel), and 1.3...1.8 times, compared to the base material. The observed changes in coatings characteristics are explained by Charpy effect, dispersion hardening and the formation of new phases in the coatings (boride eutectics).

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Section: Introductionmentioning

confidence: 99%

Comparative Study of High-Chromium Cast Iron Coatings Modified with WС-W2C/Co+B4С+Ni/Al Complexes and Cr3C2/PG-US25 Ceramet

Shchegolev

Ишков

Ivanaysky

2020

SSP

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“…Применение СВС-порошков для нанесения на изнашиваемые поверхности деталей путем плазменного напыления и последующей обработки высококонцентрированными потоками энергии должно обеспечить регулирование структурообразования и получение износостойких поверхностных слоев покрытий в сочетании с повышенной когезионной и адгезионной прочностью напыленного материала. Для этого при разработке научных основ и технологических принципов нанесения таких покрытий должны учитываться процессы и механизм синтеза исходных композиционных порошков, процессы и механизм формирования покрытий при плаз-менном напылении композиций и последующем воздействии на них высококонцентрированными потоками энергии [6][7][8]. Успешные предварительные эксперименты по синтезу композиционных порошков показывают, что имеется принципиальная возможность получения таких порошков при соответствующей отработке технологии СВС [9][10][11].…”

Section: Introductionunclassified

The technology of producing a composite material based on a multifunctional oxide ceramics

Okovity¹,

Пантелеенко²,

Talako³

et al. 2015

Metal Working and Material Science

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Modification of wear-resistant coatings of the Fe-Cr-C system with spherical tungsten carbide WC-W₂C

Shchegolev

Ишков

Ivanayskiy

2020

IOP Conf. Ser.: Mater. Sci. Eng.

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The article describes the production procedure, studies the structure, and determines the properties of new wear-resistant coatings of the Fe-Cr-C system intended for hardening the working bodies of agricultural machines. To increase the wear resistance and give new consumer qualities to such coatings, they were modified with spherical tungsten carbide WC-W2C -spherorelite. It is shown that the introduction of the complex (WC-W2C+B4C) into the basic charge allows increasing the hardness of the deposited to 1000 … 1200 HV100, and wear resistance by 3.1 times in relation to the base material, and by 1.3 … 1.8 times in relation to the base (not hardened) material.

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Plasma wear‐resistant coatings with inclusions of a solid lubricant

Cited by 6 publications

References 0 publications

Comparative Study of High-Chromium Cast Iron Coatings Modified with WС-W2C/Co+B4С+Ni/Al Complexes and Cr3C2/PG-US25 Ceramet

Comparative Study of High-Chromium Cast Iron Coatings Modified with WС-W2C/Co+B4С+Ni/Al Complexes and Cr3C2/PG-US25 Ceramet

The technology of producing a composite material based on a multifunctional oxide ceramics

Modification of wear-resistant coatings of the Fe-Cr-C system with spherical tungsten carbide WC-W₂C

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Plasma wear‐resistant coatings with inclusions of a solid lubricant

Cited by 6 publications

References 0 publications

Comparative Study of High-Chromium Cast Iron Coatings Modified with WС-W2C/Co+B4С+Ni/Al Complexes and Cr3C2/PG-US25 Ceramet

Comparative Study of High-Chromium Cast Iron Coatings Modified with WС-W2C/Co+B4С+Ni/Al Complexes and Cr3C2/PG-US25 Ceramet

The technology of producing a composite material based on a multifunctional oxide ceramics

Modification of wear-resistant coatings of the Fe-Cr-C system with spherical tungsten carbide WC-W2C

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Product

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Modification of wear-resistant coatings of the Fe-Cr-C system with spherical tungsten carbide WC-W₂C