2017
DOI: 10.1016/j.jallcom.2017.04.003
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Synergistic effect of carbonaceous reinforcements on microstructural, electrochemical, magnetic and tribological properties of electrophoretically deposited nickel

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Cited by 15 publications
(6 citation statements)
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“…The radius of the capacitive reactance arc is positively correlated with its corrosion resistance [21,33,34,35], the larger the arc radius, the lower the corrosion rate of the specimens in the corresponding solution [36,37,38]. It can be observed from Figure 6 that all samples have similar semi-circular shapes, where the arc lines are similar and their diameters are different, indicating that the corrosion rate of the specimens is different but the corrosion mechanism is the same [20].…”
Section: Resultsmentioning
confidence: 99%
“…The radius of the capacitive reactance arc is positively correlated with its corrosion resistance [21,33,34,35], the larger the arc radius, the lower the corrosion rate of the specimens in the corresponding solution [36,37,38]. It can be observed from Figure 6 that all samples have similar semi-circular shapes, where the arc lines are similar and their diameters are different, indicating that the corrosion rate of the specimens is different but the corrosion mechanism is the same [20].…”
Section: Resultsmentioning
confidence: 99%
“…Вони набувають ліпших каталітичних, теплових, оптичних, електричних, а також магнетних властивостей у порівнянні з монометалічними та біметалічними частинками без присутности матриці. Отже, наявність мат-риці не тільки відіграє роль підкладинки, але є функціонально активним елементом [11]. Композити одержують на поверхні різних неорганічних (каолін, цеоліти, цирконій) та органічних (штучні та природні полімери, графітопохідні матеріяли) матриць [1,6,12,13].…”
Section: вступunclassified
“…They acquire better catalytic, thermal, optical, electrical, and magnetic properties as compared to monometallic and bimetallic particles without a matrix. Consequently, the presence of a matrix not only plays the role of a substrate, but also is a functionally active element [11]. Composites are obtained on various inorganic (kaolin, zeolites and zirconium) and organic (artificial and natural polymers, graphite derivatives) matrices [1, 6,12].…”
Section: Introductionmentioning
confidence: 99%
“…Particular attention is paid to the magnetic properties of BNCs containing ferromagnetic NPs on carbon-containing matrices, which are investigated for creating water-purifying filters [21,22], rechargeable batteries, various sensors [4], protective materials from corrosion and deterioration [11] and electromagnetic waves [23] and others.…”
Section: Introductionmentioning
confidence: 99%