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Ni–B/AlN (nickel-boron / aluminum nitride) nanocomposite coatings were synthesized through electrodeposition technique and their properties were investigated.
Corrosion is a major cause of materials and equipment failure in the oil and gas industry, and its prevention is crucial to ensure reliability of the assets. Towards, this goal, Ni–B/AlN nanocomposite coatings were synthesized through electrodeposition technique and their properties were investigated. It is noticed that the incorporation of AlN nanoparticles into Ni-B matrix has a pronounced effect on its surface, structural, mechanical and anticorrosion properties. The improved properties of Ni-B/AlN nanocomposite coatings make them attractive for many industrial applications.
Key words: Electrodeposition, coatings, crystal structure, hardness, corrosion
Laboratory testing of polysiloxane based materials confirms much higher temperature tolerances than acrylic spray-on products and insulation performance nearly equal to traditional block, batt and mat-type insulation materials.
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In the current study, two white cast irons were evaluated under severe conditions; a 27% Cr alloy (27WCI) with eutectic chromium carbides and another 30% Cr alloy (30WCI) with primary chromium carbides and higher carbide volume fraction than the 27WCI
Alloys test results establish the relationship between electrochemical, chemical & metallurgical properties of magnesium, aluminum and zinc alloys and achieve higher and more stable current consumption of sacrificial anodes.